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support multithreading in api and protocols

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close trade wallets while unused for scalability
verify txs do not use unlock height
increase trade init timeout to 60s
This commit is contained in:
woodser 2022-03-31 08:17:58 -04:00
parent fdddc87477
commit bb95b4b1d6
82 changed files with 2786 additions and 2338 deletions
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9
Makefile
View File

@ -14,8 +14,13 @@ localnet:
haveno:
./gradlew build
haveno-apps: # quick build desktop and daemon apps without tests, etc
./gradlew :core:compileJava :desktop:build
# build haveno without tests
no-tests:
./gradlew build -x test
# quick build desktop and daemon apps without tests
haveno-apps:
./gradlew :core:compileJava :desktop:build -x test
deploy:
# create a new screen session named 'localnet'

44
common/src/main/java/bisq/common/proto/persistable/PersistableList.java
View File

@ -42,43 +42,61 @@ public abstract class PersistableList<T extends PersistablePayload> implements P
}
public void setAll(Collection<T> collection) {
this.list.clear();
this.list.addAll(collection);
synchronized (this.list) {
this.list.clear();
this.list.addAll(collection);
}
}
public boolean add(T item) {
if (!list.contains(item)) {
list.add(item);
return true;
synchronized (list) {
if (!list.contains(item)) {
list.add(item);
return true;
}
return false;
}
return false;
}
public boolean remove(T item) {
return list.remove(item);
synchronized (list) {
return list.remove(item);
}
}
public Stream<T> stream() {
return list.stream();
synchronized (list) {
return list.stream();
}
}
public int size() {
return list.size();
synchronized (list) {
return list.size();
}
}
public boolean contains(T item) {
return list.contains(item);
synchronized (list) {
return list.contains(item);
}
}
public boolean isEmpty() {
return list.isEmpty();
synchronized (list) {
return list.isEmpty();
}
}
public void forEach(Consumer<? super T> action) {
list.forEach(action);
synchronized (list) {
list.forEach(action);
}
}
public void clear() {
list.clear();
synchronized (list) {
list.clear();
}
}
}

13
common/src/main/java/bisq/common/taskrunner/Task.java
View File

@ -66,11 +66,14 @@ public abstract class Task<T extends Model> {
}
protected void failed(Throwable t) {
StringWriter sw = new StringWriter();
PrintWriter pw = new PrintWriter(sw);
t.printStackTrace(pw);
errorMessage = sw.toString();
log.error(t.getMessage(), t);
// // append stacktrace to error message (only for development)
// StringWriter sw = new StringWriter();
// PrintWriter pw = new PrintWriter(sw);
// t.printStackTrace(pw);
// errorMessage = sw.toString();
errorMessage = t.getMessage() + " (task " + getClass().getSimpleName() + ")";
log.error(errorMessage, t);
taskHandler.handleErrorMessage(errorMessage);
}

6
core/src/main/java/bisq/core/api/CoreApi.java
View File

@ -434,7 +434,8 @@ public class CoreApi {
double buyerSecurityDeposit,
long triggerPrice,
String paymentAccountId,
Consumer<Offer> resultHandler) {
Consumer<Offer> resultHandler,
ErrorMessageHandler errorMessageHandler) {
coreOffersService.createAndPlaceOffer(currencyCode,
directionAsString,
priceAsString,
@ -445,7 +446,8 @@ public class CoreApi {
buyerSecurityDeposit,
triggerPrice,
paymentAccountId,
resultHandler);
resultHandler,
errorMessageHandler);
}
public Offer editOffer(String offerId,

226
core/src/main/java/bisq/core/api/CoreDisputesService.java
View File

@ -85,113 +85,122 @@ public class CoreDisputesService {
}
public void openDispute(String tradeId, ResultHandler resultHandler, FaultHandler faultHandler) {
Trade trade = tradeManager.getTradeById(tradeId).orElseThrow(() ->
Trade trade = tradeManager.getOpenTrade(tradeId).orElseThrow(() ->
new IllegalArgumentException(format("trade with id '%s' not found", tradeId)));
Offer offer = trade.getOffer();
if (offer == null) throw new IllegalStateException(format("offer with tradeId '%s' is null", tradeId));
synchronized (trade) {
Offer offer = trade.getOffer();
if (offer == null) throw new IllegalStateException(format("offer with tradeId '%s' is null", tradeId));
// Dispute agents are registered as mediators and refund agents, but current UI appears to be hardcoded
// to reference the arbitrator. Reference code is in desktop PendingTradesDataModel.java and could be refactored.
var disputeManager = arbitrationManager;
var isSupportTicket = false;
var isMaker = tradeManager.isMyOffer(offer);
var dispute = createDisputeForTrade(trade, offer, keyRing.getPubKeyRing(), isMaker, isSupportTicket);
// Dispute agents are registered as mediators and refund agents, but current UI appears to be hardcoded
// to reference the arbitrator. Reference code is in desktop PendingTradesDataModel.java and could be refactored.
var disputeManager = arbitrationManager;
var isSupportTicket = false;
var isMaker = tradeManager.isMyOffer(offer);
var dispute = createDisputeForTrade(trade, offer, keyRing.getPubKeyRing(), isMaker, isSupportTicket);
// Sends the openNewDisputeMessage to arbitrator, who will then create 2 disputes
// one for the opener, the other for the peer, see sendPeerOpenedDisputeMessage.
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
String updatedMultisigHex = multisigWallet.getMultisigHex();
disputeManager.sendOpenNewDisputeMessage(dispute, false, updatedMultisigHex, resultHandler, faultHandler);
tradeManager.requestPersistence();
// Sends the openNewDisputeMessage to arbitrator, who will then create 2 disputes
// one for the opener, the other for the peer, see sendPeerOpenedDisputeMessage.
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
String updatedMultisigHex = multisigWallet.getMultisigHex();
disputeManager.sendOpenNewDisputeMessage(dispute, false, updatedMultisigHex, resultHandler, faultHandler);
tradeManager.requestPersistence();
// close multisig wallet
xmrWalletService.closeMultisigWallet(trade.getId());
}
}
public Dispute createDisputeForTrade(Trade trade, Offer offer, PubKeyRing pubKey, boolean isMaker, boolean isSupportTicket) {
byte[] payoutTxSerialized = null;
String payoutTxHashAsString = null;
synchronized (trade) {
byte[] payoutTxSerialized = null;
String payoutTxHashAsString = null;
PubKeyRing arbitratorPubKeyRing = trade.getArbitratorPubKeyRing();
checkNotNull(arbitratorPubKeyRing, "arbitratorPubKeyRing must not be null");
byte[] depositTxSerialized = null; // depositTx.bitcoinSerialize(); TODO (woodser)
String depositTxHashAsString = null; // depositTx.getHashAsString(); TODO (woodser)
Dispute dispute = new Dispute(new Date().getTime(),
trade.getId(),
pubKey.hashCode(), // trader id,
true,
(offer.getDirection() == OfferPayload.Direction.BUY) == isMaker,
isMaker,
pubKey,
trade.getDate().getTime(),
trade.getMaxTradePeriodDate().getTime(),
trade.getContract(),
trade.getContractHash(),
depositTxSerialized,
payoutTxSerialized,
depositTxHashAsString,
payoutTxHashAsString,
trade.getContractAsJson(),
trade.getMaker().getContractSignature(),
trade.getTaker().getContractSignature(),
trade.getMaker().getPaymentAccountPayload(),
trade.getTaker().getPaymentAccountPayload(),
arbitratorPubKeyRing,
isSupportTicket,
SupportType.ARBITRATION);
PubKeyRing arbitratorPubKeyRing = trade.getArbitratorPubKeyRing();
checkNotNull(arbitratorPubKeyRing, "arbitratorPubKeyRing must not be null");
byte[] depositTxSerialized = null; // depositTx.bitcoinSerialize(); TODO (woodser)
String depositTxHashAsString = null; // depositTx.getHashAsString(); TODO (woodser)
Dispute dispute = new Dispute(new Date().getTime(),
trade.getId(),
pubKey.hashCode(), // trader id,
true,
(offer.getDirection() == OfferPayload.Direction.BUY) == isMaker,
isMaker,
pubKey,
trade.getDate().getTime(),
trade.getMaxTradePeriodDate().getTime(),
trade.getContract(),
trade.getContractHash(),
depositTxSerialized,
payoutTxSerialized,
depositTxHashAsString,
payoutTxHashAsString,
trade.getContractAsJson(),
trade.getMaker().getContractSignature(),
trade.getTaker().getContractSignature(),
trade.getMaker().getPaymentAccountPayload(),
trade.getTaker().getPaymentAccountPayload(),
arbitratorPubKeyRing,
isSupportTicket,
SupportType.ARBITRATION);
trade.setDisputeState(Trade.DisputeState.DISPUTE_REQUESTED);
trade.setDisputeState(Trade.DisputeState.DISPUTE_REQUESTED);
return dispute;
return dispute;
}
}
public void resolveDispute(String tradeId, DisputeResult.Winner winner, DisputeResult.Reason reason, String summaryNotes, long customWinnerAmount) {
try {
var disputeOptional = arbitrationManager.getDisputesAsObservableList().stream()
var disputeOptional = arbitrationManager.getDisputesAsObservableList().stream() // TODO (woodser): use getDispute()
.filter(d -> tradeId.equals(d.getTradeId()))
.findFirst();
Dispute dispute;
if (disputeOptional.isPresent()) dispute = disputeOptional.get();
else throw new IllegalStateException(format("dispute for tradeId '%s' not found", tradeId));
synchronized (tradeManager.getTrade(tradeId)) {
var closeDate = new Date();
var disputeResult = createDisputeResult(dispute, winner, reason, summaryNotes, closeDate);
var contract = dispute.getContract();
var closeDate = new Date();
var disputeResult = createDisputeResult(dispute, winner, reason, summaryNotes, closeDate);
var contract = dispute.getContract();
DisputePayout payout;
if (customWinnerAmount > 0) {
payout = DisputePayout.CUSTOM;
} else if (winner == DisputeResult.Winner.BUYER) {
payout = DisputePayout.BUYER_GETS_TRADE_AMOUNT;
} else if (winner == DisputeResult.Winner.SELLER) {
payout = DisputePayout.SELLER_GETS_TRADE_AMOUNT;
} else {
throw new IllegalStateException("Unexpected DisputeResult.Winner: " + winner);
}
applyPayoutAmountsToDisputeResult(payout, dispute, disputeResult, customWinnerAmount);
DisputePayout payout;
if (customWinnerAmount > 0) {
payout = DisputePayout.CUSTOM;
} else if (winner == DisputeResult.Winner.BUYER) {
payout = DisputePayout.BUYER_GETS_TRADE_AMOUNT;
} else if (winner == DisputeResult.Winner.SELLER) {
payout = DisputePayout.SELLER_GETS_TRADE_AMOUNT;
} else {
throw new IllegalStateException("Unexpected DisputeResult.Winner: " + winner);
// resolve the payout
resolveDisputePayout(dispute, disputeResult, contract);
// close dispute ticket
closeDispute(arbitrationManager, dispute, disputeResult, false);
// close dispute ticket for peer
var peersDisputeOptional = arbitrationManager.getDisputesAsObservableList().stream()
.filter(d -> tradeId.equals(d.getTradeId()) && dispute.getTraderId() != d.getTraderId())
.findFirst();
if (peersDisputeOptional.isPresent()) {
var peerDispute = peersDisputeOptional.get();
var peerDisputeResult = createDisputeResult(peerDispute, winner, reason, summaryNotes, closeDate);
peerDisputeResult.setBuyerPayoutAmount(disputeResult.getBuyerPayoutAmount());
peerDisputeResult.setSellerPayoutAmount(disputeResult.getSellerPayoutAmount());
peerDisputeResult.setLoserPublisher(disputeResult.isLoserPublisher());
resolveDisputePayout(peerDispute, peerDisputeResult, peerDispute.getContract());
closeDispute(arbitrationManager, peerDispute, peerDisputeResult, false);
} else {
throw new IllegalStateException("could not find peer dispute");
}
arbitrationManager.requestPersistence();
}
applyPayoutAmountsToDisputeResult(payout, dispute, disputeResult, customWinnerAmount);
// resolve the payout
resolveDisputePayout(dispute, disputeResult, contract);
// close dispute ticket
closeDispute(arbitrationManager, dispute, disputeResult, false);
// close dispute ticket for peer
var peersDisputeOptional = arbitrationManager.getDisputesAsObservableList().stream()
.filter(d -> tradeId.equals(d.getTradeId()) && dispute.getTraderId() != d.getTraderId())
.findFirst();
if (peersDisputeOptional.isPresent()) {
var peerDispute = peersDisputeOptional.get();
var peerDisputeResult = createDisputeResult(peerDispute, winner, reason, summaryNotes, closeDate);
peerDisputeResult.setBuyerPayoutAmount(disputeResult.getBuyerPayoutAmount());
peerDisputeResult.setSellerPayoutAmount(disputeResult.getSellerPayoutAmount());
peerDisputeResult.setLoserPublisher(disputeResult.isLoserPublisher());
resolveDisputePayout(peerDispute, peerDisputeResult, peerDispute.getContract());
closeDispute(arbitrationManager, peerDispute, peerDisputeResult, false);
} else {
throw new IllegalStateException("could not find peer dispute");
}
arbitrationManager.requestPersistence();
} catch (Exception e) {
throw new IllegalStateException(e);
}
@ -245,29 +254,36 @@ public class CoreDisputesService {
// TODO (woodser): create disputed payout tx after showing payout tx confirmation, within doCloseIfValid() (see upstream/master)
if (!dispute.isMediationDispute()) {
try {
System.out.println(disputeResult);
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
//dispute.getContract().getArbitratorPubKeyRing(); // TODO: support arbitrator pub key ring in contract?
//disputeResult.setArbitratorPubKey(arbitratorAddressEntry.getPubKey());
synchronized (tradeManager.getTrade(dispute.getTradeId())) {
System.out.println(disputeResult);
//dispute.getContract().getArbitratorPubKeyRing(); // TODO: support arbitrator pub key ring in contract?
//disputeResult.setArbitratorPubKey(arbitratorAddressEntry.getPubKey());
// TODO (woodser): don't send signed tx if opener is not co-signer?
// // determine if opener is co-signer
// boolean openerIsWinner = (contract.getBuyerPubKeyRing().equals(dispute.getTraderPubKeyRing()) && disputeResult.getWinner() == Winner.BUYER) || (contract.getSellerPubKeyRing().equals(dispute.getTraderPubKeyRing()) && disputeResult.getWinner() == Winner.SELLER);
// boolean openerIsCosigner = openerIsWinner || disputeResult.isLoserPublisher();
// if (!openerIsCosigner) throw new RuntimeException("Need to query non-opener for updated multisig hex before creating tx");
// TODO (woodser): don't send signed tx if opener is not co-signer?
// // determine if opener is co-signer
// boolean openerIsWinner = (contract.getBuyerPubKeyRing().equals(dispute.getTraderPubKeyRing()) && disputeResult.getWinner() == Winner.BUYER) || (contract.getSellerPubKeyRing().equals(dispute.getTraderPubKeyRing()) && disputeResult.getWinner() == Winner.SELLER);
// boolean openerIsCosigner = openerIsWinner || disputeResult.isLoserPublisher();
// if (!openerIsCosigner) throw new RuntimeException("Need to query non-opener for updated multisig hex before creating tx");
// arbitrator creates and signs dispute payout tx if dispute is in context of opener, otherwise opener's peer must request payout tx by providing updated multisig hex
boolean isOpener = dispute.isOpener();
System.out.println("Is dispute opener: " + isOpener);
if (isOpener) {
MoneroTxWallet arbitratorPayoutTx = ArbitrationManager.arbitratorCreatesDisputedPayoutTx(contract, dispute, disputeResult, multisigWallet);
System.out.println("Created arbitrator-signed payout tx: " + arbitratorPayoutTx);
if (arbitratorPayoutTx != null)
disputeResult.setArbitratorSignedPayoutTxHex(arbitratorPayoutTx.getTxSet().getMultisigTxHex());
// open multisig wallet
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
// arbitrator creates and signs dispute payout tx if dispute is in context of opener, otherwise opener's peer must request payout tx by providing updated multisig hex
boolean isOpener = dispute.isOpener();
System.out.println("Is dispute opener: " + isOpener);
if (isOpener) {
MoneroTxWallet arbitratorPayoutTx = ArbitrationManager.arbitratorCreatesDisputedPayoutTx(contract, dispute, disputeResult, multisigWallet);
System.out.println("Created arbitrator-signed payout tx: " + arbitratorPayoutTx);
if (arbitratorPayoutTx != null)
disputeResult.setArbitratorSignedPayoutTxHex(arbitratorPayoutTx.getTxSet().getMultisigTxHex());
}
// send arbitrator's updated multisig hex with dispute result
disputeResult.setArbitratorUpdatedMultisigHex(multisigWallet.getMultisigHex());
// close multisig wallet
xmrWalletService.closeMultisigWallet(dispute.getTradeId());
}
// send arbitrator's updated multisig hex with dispute result
disputeResult.setArbitratorUpdatedMultisigHex(multisigWallet.getMultisigHex());
} catch (AddressFormatException e2) {
log.error("Error at close dispute", e2);
return;

26
core/src/main/java/bisq/core/api/CoreOffersService.java
View File

@ -32,7 +32,7 @@ import bisq.core.payment.PaymentAccount;
import bisq.core.user.User;
import bisq.common.crypto.KeyRing;
import bisq.common.handlers.ErrorMessageHandler;
import org.bitcoinj.core.Coin;
import org.bitcoinj.core.Transaction;
import org.bitcoinj.utils.Fiat;
@ -175,7 +175,10 @@ class CoreOffersService {
List<String> allKeyImages = new ArrayList<String>();
for (Offer offer : offers) {
for (String keyImage : offer.getOfferPayload().getReserveTxKeyImages()) {
if (!allKeyImages.add(keyImage)) unreservedOffers.add(offer);
if (!allKeyImages.add(keyImage)) {
log.warn("Key image {} belongs to another offer, removing offer {}", keyImage, offer.getId());
unreservedOffers.add(offer);
}
}
}
@ -191,7 +194,10 @@ class CoreOffersService {
for (Offer offer : offers) {
if (unreservedOffers.contains(offer)) continue;
for (String keyImage : offer.getOfferPayload().getReserveTxKeyImages()) {
if (spentKeyImages.contains(keyImage)) unreservedOffers.add(offer);
if (spentKeyImages.contains(keyImage)) {
log.warn("Offer {} reserved funds have already been spent with key image {}", offer.getId(), keyImage);
unreservedOffers.add(offer);
}
}
}
@ -216,7 +222,8 @@ class CoreOffersService {
double buyerSecurityDeposit,
long triggerPrice,
String paymentAccountId,
Consumer<Offer> resultHandler) {
Consumer<Offer> resultHandler,
ErrorMessageHandler errorMessageHandler) {
coreWalletsService.verifyWalletsAreAvailable();
coreWalletsService.verifyEncryptedWalletIsUnlocked();
@ -252,7 +259,8 @@ class CoreOffersService {
buyerSecurityDeposit,
triggerPrice,
useSavingsWallet,
transaction -> resultHandler.accept(offer));
transaction -> resultHandler.accept(offer),
errorMessageHandler);
}
// Edit a placed offer.
@ -303,16 +311,14 @@ class CoreOffersService {
double buyerSecurityDeposit,
long triggerPrice,
boolean useSavingsWallet,
Consumer<Transaction> resultHandler) {
Consumer<Transaction> resultHandler,
ErrorMessageHandler errorMessageHandler) {
openOfferManager.placeOffer(offer,
buyerSecurityDeposit,
useSavingsWallet,
triggerPrice,
resultHandler::accept,
log::error);
if (offer.getErrorMessage() != null)
throw new IllegalStateException(offer.getErrorMessage());
errorMessageHandler);
}
private boolean offerMatchesDirectionAndCurrency(Offer offer,

2
core/src/main/java/bisq/core/api/CorePaymentAccountsService.java
View File

@ -100,7 +100,7 @@ class CorePaymentAccountsService {
// Crypto Currency Accounts
PaymentAccount createCryptoCurrencyPaymentAccount(String accountName,
synchronized PaymentAccount createCryptoCurrencyPaymentAccount(String accountName,
String currencyCode,
String address,
boolean tradeInstant) {

34
core/src/main/java/bisq/core/api/CoreTradesService.java
View File

@ -103,16 +103,24 @@ class CoreTradesService {
throw new IllegalArgumentException(format("payment account with id '%s' not found", paymentAccountId));
var useSavingsWallet = true;
//noinspection ConstantConditions
takeOfferModel.initModel(offer, paymentAccount, useSavingsWallet);
log.info("Initiating take {} offer, {}",
offer.isBuyOffer() ? "buy" : "sell",
takeOfferModel);
//noinspection ConstantConditions
// synchronize access to take offer model // TODO (woodser): to avoid synchronizing, don't use stateful model
Coin txFeeFromFeeService; // TODO (woodser): remove this and other unused fields
Coin takerFee;
Coin fundsNeededForTrade;
synchronized (takeOfferModel) {
takeOfferModel.initModel(offer, paymentAccount, useSavingsWallet);
txFeeFromFeeService = takeOfferModel.getTxFeeFromFeeService();
takerFee = takeOfferModel.getTakerFee();
fundsNeededForTrade = takeOfferModel.getFundsNeededForTrade();
log.info("Initiating take {} offer, {}", offer.isBuyOffer() ? "buy" : "sell", takeOfferModel);
}
// take offer
tradeManager.onTakeOffer(offer.getAmount(),
takeOfferModel.getTxFeeFromFeeService(),
takeOfferModel.getTakerFee(),
takeOfferModel.getFundsNeededForTrade(),
txFeeFromFeeService,
takerFee,
fundsNeededForTrade,
offer,
paymentAccountId,
useSavingsWallet,
@ -225,7 +233,7 @@ class CoreTradesService {
}
private Optional<Trade> getOpenTrade(String tradeId) {
return tradeManager.getTradeById(tradeId);
return tradeManager.getOpenTrade(tradeId);
}
private Optional<Trade> getClosedTrade(String tradeId) {
@ -236,14 +244,14 @@ class CoreTradesService {
List<Trade> getTrades() {
coreWalletsService.verifyWalletsAreAvailable();
coreWalletsService.verifyEncryptedWalletIsUnlocked();
List<Trade> trades = new ArrayList<Trade>(tradeManager.getTrades());
List<Trade> trades = new ArrayList<Trade>(tradeManager.getOpenTrades());
trades.addAll(closedTradableManager.getClosedTrades());
return trades;
}
List<ChatMessage> getChatMessages(String tradeId) {
Trade trade;
var tradeOptional = tradeManager.getTradeById(tradeId);
var tradeOptional = tradeManager.getOpenTrade(tradeId);
if (tradeOptional.isPresent()) trade = tradeOptional.get();
else throw new IllegalStateException(format("trade with id '%s' not found", tradeId));
boolean isMaker = tradeManager.isMyOffer(trade.getOffer());
@ -253,7 +261,7 @@ class CoreTradesService {
void sendChatMessage(String tradeId, String message) {
Trade trade;
var tradeOptional = tradeManager.getTradeById(tradeId);
var tradeOptional = tradeManager.getOpenTrade(tradeId);
if (tradeOptional.isPresent()) trade = tradeOptional.get();
else throw new IllegalStateException(format("trade with id '%s' not found", tradeId));
boolean isMaker = tradeManager.isMyOffer(trade.getOffer());

4
core/src/main/java/bisq/core/api/CoreWalletsService.java
View File

@ -509,12 +509,12 @@ class CoreWalletsService {
}
// Throws a RuntimeException if wallet currency code is not BTC.
// Throws a RuntimeException if wallet currency code is not BTC or XMR.
private void verifyWalletCurrencyCodeIsValid(String currencyCode) {
if (currencyCode == null || currencyCode.isEmpty())
return;
if (!currencyCode.equalsIgnoreCase("BTC"))
if (!currencyCode.equalsIgnoreCase("BTC") && !currencyCode.equalsIgnoreCase("XMR"))
throw new IllegalStateException(format("wallet does not support %s", currencyCode));
}

2
core/src/main/java/bisq/core/btc/Balances.java
View File

@ -94,7 +94,7 @@ public class Balances {
private void updatedBalances() {
// Need to delay a bit to get the balances correct
UserThread.execute(() -> {
UserThread.execute(() -> { // TODO (woodser): running on user thread because JFX properties updated for legacy app
updateAvailableBalance();
updateLockedBalance();
updateReservedOfferBalance();

147
core/src/main/java/bisq/core/btc/setup/MoneroWalletRpcManager.java
View File

@ -46,44 +46,51 @@ public class MoneroWalletRpcManager {
* @return a client connected to the monero-wallet-rpc instance
*/
public MoneroWalletRpc startInstance(List<String> cmd) {
try {
try {
// register given port
if (cmd.contains(RPC_BIND_PORT_ARGUMENT)) {
int portArgumentPosition = cmd.indexOf(RPC_BIND_PORT_ARGUMENT) + 1;
int port = Integer.parseInt(cmd.get(portArgumentPosition));
MoneroWalletRpc walletRpc = new MoneroWalletRpc(cmd); // starts monero-wallet-rpc process
registeredPorts.put(port, walletRpc);
return walletRpc;
}
// register assigned ports up to maximum attempts
else {
int numAttempts = 0;
while (numAttempts < NUM_ALLOWED_ATTEMPTS) {
int port = -1;
try {
numAttempts++;
port = registerPort();
List<String> cmdCopy = new ArrayList<>(cmd); // preserve original cmd
cmdCopy.add(RPC_BIND_PORT_ARGUMENT);
cmdCopy.add("" + port);
MoneroWalletRpc walletRpc = new MoneroWalletRpc(cmdCopy); // start monero-wallet-rpc process
registeredPorts.put(port, walletRpc);
return walletRpc;
} catch (Exception e) {
if (numAttempts >= NUM_ALLOWED_ATTEMPTS) {
log.error("Unable to start monero-wallet-rpc instance after {} attempts", NUM_ALLOWED_ATTEMPTS);
throw e;
}
// register given port
if (cmd.contains(RPC_BIND_PORT_ARGUMENT)) {
int portArgumentPosition = cmd.indexOf(RPC_BIND_PORT_ARGUMENT) + 1;
int port = Integer.parseInt(cmd.get(portArgumentPosition));
synchronized (registeredPorts) {
if (registeredPorts.containsKey(port)) throw new RuntimeException("Port " + port + " is already registered");
registeredPorts.put(port, null);
}
MoneroWalletRpc walletRpc = new MoneroWalletRpc(cmd); // starts monero-wallet-rpc process
synchronized (registeredPorts) {
registeredPorts.put(port, walletRpc);
}
return walletRpc;
}
}
throw new MoneroError("Failed to start monero-wallet-rpc instance after " + NUM_ALLOWED_ATTEMPTS + " attempts"); // should never reach here
// register assigned ports up to maximum attempts
else {
int numAttempts = 0;
while (numAttempts < NUM_ALLOWED_ATTEMPTS) {
int port = -1;
try {
numAttempts++;
port = registerPort();
List<String> cmdCopy = new ArrayList<>(cmd); // preserve original cmd
cmdCopy.add(RPC_BIND_PORT_ARGUMENT);
cmdCopy.add("" + port);
MoneroWalletRpc walletRpc = new MoneroWalletRpc(cmdCopy); // start monero-wallet-rpc process
synchronized (registeredPorts) {
registeredPorts.put(port, walletRpc);
}
return walletRpc;
} catch (Exception e) {
if (numAttempts >= NUM_ALLOWED_ATTEMPTS) {
log.error("Unable to start monero-wallet-rpc instance after {} attempts", NUM_ALLOWED_ATTEMPTS);
throw e;
}
}
}
throw new MoneroError("Failed to start monero-wallet-rpc instance after " + NUM_ALLOWED_ATTEMPTS + " attempts"); // should never reach here
}
} catch (IOException e) {
throw new MoneroError(e);
}
} catch (IOException e) {
throw new MoneroError(e);
}
}
/**
@ -93,41 +100,59 @@ public class MoneroWalletRpcManager {
* @param save specifies if the wallet should be saved before closing
*/
public void stopInstance(MoneroWalletRpc walletRpc, boolean save) {
boolean found = false;
for (Map.Entry<Integer, MoneroWalletRpc> entry : registeredPorts.entrySet()) {
if (walletRpc == entry.getValue()) {
walletRpc.close(save);
walletRpc.stopProcess();
found = true;
try { unregisterPort(entry.getKey()); }
catch (Exception e) { throw new MoneroError(e); }
break;
// unregister port
synchronized (registeredPorts) {
boolean found = false;
for (Map.Entry<Integer, MoneroWalletRpc> entry : registeredPorts.entrySet()) {
if (walletRpc == entry.getValue()) {
found = true;
try {
unregisterPort(entry.getKey());
} catch (Exception e) {
throw new MoneroError(e);
}
break;
}
}
if (!found) throw new RuntimeException("MoneroWalletRpc instance not registered with a port");
}
}
if (!found) throw new RuntimeException("MoneroWalletRpc instance not associated with port");
// close wallet and stop process
walletRpc.close(save);
walletRpc.stopProcess();
}
private int registerPort() throws IOException {
synchronized (registeredPorts) {
// register next consecutive port
if (startPort != null) {
int port = startPort;
while (registeredPorts.containsKey(port)) port++;
registeredPorts.put(port, null);
return port;
}
// register next consecutive port
if (startPort != null) {
int port = startPort;
while (registeredPorts.containsKey(port)) port++;
registeredPorts.put(port, null);
return port;
}
// register auto-assigned port
else {
// register auto-assigned port
else {
int port = getLocalPort();
registeredPorts.put(port, null);
return port;
}
}
}
private void unregisterPort(int port) {
synchronized (registeredPorts) {
registeredPorts.remove(port);
}
}
private int getLocalPort() throws IOException {
ServerSocket socket = new ServerSocket(0); // use socket to get available port
int port = socket.getLocalPort();
socket.close();
registeredPorts.put(port, null);
return port;
}
}
private void unregisterPort(int port) {
registeredPorts.remove(port);
}
}

128
core/src/main/java/bisq/core/btc/wallet/XmrWalletService.java
View File

@ -63,7 +63,7 @@ public class XmrWalletService {
private static final String MONERO_WALLET_RPC_USERNAME = "haveno_user";
private static final String MONERO_WALLET_RPC_DEFAULT_PASSWORD = "password"; // only used if account password is null
private static final String MONERO_WALLET_NAME = "haveno_XMR";
private static final long MONERO_WALLET_SYNC_RATE = 5000l;
private static final long MONERO_WALLET_SYNC_PERIOD = 5000l;
private final CoreAccountService accountService;
private final CoreMoneroConnectionsService connectionsService;
@ -154,61 +154,57 @@ public class XmrWalletService {
return accountService.getPassword() == null ? MONERO_WALLET_RPC_DEFAULT_PASSWORD : accountService.getPassword();
}
public boolean walletExists(String walletName) {
String path = walletDir.toString() + File.separator + walletName;
return new File(path + ".keys").exists();
}
public void closeWallet(MoneroWallet walletRpc, boolean save) {
log.info("{}.closeWallet({}, {})", getClass(), walletRpc.getPath(), save);
MONERO_WALLET_RPC_MANAGER.stopInstance((MoneroWalletRpc) walletRpc, save);
}
public void deleteWallet(String walletName) {
log.info("{}.deleteWallet({})", getClass(), walletName);
if (!walletExists(walletName)) throw new Error("Wallet does not exist at path: " + walletName);
String path = walletDir.toString() + File.separator + walletName;
if (!new File(path).delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
if (!new File(path + ".keys").delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
if (!new File(path + ".address.txt").delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
// WalletsSetup.deleteRollingBackup(walletName); // TODO (woodser): necessary to delete rolling backup?
public boolean multisigWalletExists(String tradeId) {
return walletExists("xmr_multisig_trade_" + tradeId);
}
// TODO (woodser): test retaking failed trade. create new multisig wallet or replace? cannot reuse
public synchronized MoneroWallet createMultisigWallet(String tradeId) {
log.info("{}.createMultisigWallet({})", getClass(), tradeId);
if (multisigWallets.containsKey(tradeId)) return multisigWallets.get(tradeId);
String path = "xmr_multisig_trade_" + tradeId;
MoneroWallet multisigWallet = null;
multisigWallet = createWallet(new MoneroWalletConfig().setPath(path).setPassword(getWalletPassword()), null); // auto-assign port
multisigWallets.put(tradeId, multisigWallet);
multisigWallet.startSyncing(5000l);
return multisigWallet;
}
public MoneroWallet getMultisigWallet(String tradeId) { // TODO (woodser): synchronize per wallet id
log.info("{}.getMultisigWallet({})", getClass(), tradeId);
if (multisigWallets.containsKey(tradeId)) return multisigWallets.get(tradeId);
String path = "xmr_multisig_trade_" + tradeId;
if (!walletExists(path)) return null;
MoneroWallet multisigWallet = openWallet(new MoneroWalletConfig().setPath(path).setPassword(getWalletPassword()), null);
multisigWallets.put(tradeId, multisigWallet);
multisigWallet.startSyncing(5000l); // TODO (woodser): use sync period from config. apps stall if too many multisig wallets and too short sync period
return multisigWallet;
}
public synchronized boolean deleteMultisigWallet(String tradeId) {
log.info("{}.deleteMultisigWallet({})", getClass(), tradeId);
String walletName = "xmr_multisig_trade_" + tradeId;
if (!walletExists(walletName)) return false;
try {
closeWallet(getMultisigWallet(tradeId), false);
} catch (Exception err) {
// multisig wallet may not be open
public MoneroWallet createMultisigWallet(String tradeId) {
log.info("{}.createMultisigWallet({})", getClass().getSimpleName(), tradeId);
Trade trade = tradeManager.getOpenTrade(tradeId).get();
synchronized (trade) {
if (multisigWallets.containsKey(trade.getId())) return multisigWallets.get(trade.getId());
String path = "xmr_multisig_trade_" + trade.getId();
MoneroWallet multisigWallet = createWallet(new MoneroWalletConfig().setPath(path).setPassword(getWalletPassword()), null); // auto-assign port
multisigWallets.put(trade.getId(), multisigWallet);
return multisigWallet;
}
}
// TODO (woodser): provide progress notifications during open?
public MoneroWallet getMultisigWallet(String tradeId) {
log.info("{}.getMultisigWallet({})", getClass().getSimpleName(), tradeId);
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
if (multisigWallets.containsKey(trade.getId())) return multisigWallets.get(trade.getId());
String path = "xmr_multisig_trade_" + trade.getId();
if (!walletExists(path)) throw new RuntimeException("Multisig wallet does not exist for trade " + trade.getId());
MoneroWallet multisigWallet = openWallet(new MoneroWalletConfig().setPath(path).setPassword(getWalletPassword()), null);
multisigWallets.put(trade.getId(), multisigWallet);
return multisigWallet;
}
}
public void closeMultisigWallet(String tradeId) {
log.info("{}.closeMultisigWallet({})", getClass().getSimpleName(), tradeId);
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
if (!multisigWallets.containsKey(trade.getId())) throw new RuntimeException("Multisig wallet to close was not previously opened for trade " + trade.getId());
MoneroWallet wallet = multisigWallets.remove(trade.getId());
closeWallet(wallet, true);
}
}
public boolean deleteMultisigWallet(String tradeId) {
log.info("{}.deleteMultisigWallet({})", getClass().getSimpleName(), tradeId);
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
String walletName = "xmr_multisig_trade_" + tradeId;
if (!walletExists(walletName)) return false;
if (multisigWallets.containsKey(trade.getId())) closeMultisigWallet(tradeId);
deleteWallet(walletName);
return true;
}
deleteWallet(walletName);
multisigWallets.remove(tradeId);
return true;
}
public MoneroTxWallet createTx(List<MoneroDestination> destinations) {
@ -240,6 +236,11 @@ public class XmrWalletService {
setWalletDaemonConnections(newConnection);
});
}
private boolean walletExists(String walletName) {
String path = walletDir.toString() + File.separator + walletName;
return new File(path + ".keys").exists();
}
private void tryInitMainWallet() {
MoneroWalletConfig walletConfig = new MoneroWalletConfig().setPath(MONERO_WALLET_NAME).setPassword(getWalletPassword());
@ -288,7 +289,7 @@ public class XmrWalletService {
// create wallet
try {
walletRpc.createWallet(config);
walletRpc.startSyncing(MONERO_WALLET_SYNC_RATE);
walletRpc.startSyncing(MONERO_WALLET_SYNC_PERIOD);
return walletRpc;
} catch (Exception e) {
e.printStackTrace();
@ -305,7 +306,7 @@ public class XmrWalletService {
// open wallet
try {
walletRpc.openWallet(config);
walletRpc.startSyncing(MONERO_WALLET_SYNC_RATE);
walletRpc.startSyncing(MONERO_WALLET_SYNC_PERIOD);
return walletRpc;
} catch (Exception e) {
e.printStackTrace();
@ -370,7 +371,7 @@ public class XmrWalletService {
}
private void changeWalletPasswords(String oldPassword, String newPassword) {
List<String> tradeIds = tradeManager.getTrades().stream().map(Trade::getId).collect(Collectors.toList());
List<String> tradeIds = tradeManager.getOpenTrades().stream().map(Trade::getId).collect(Collectors.toList());
ExecutorService pool = Executors.newFixedThreadPool(Math.min(10, 1 + tradeIds.size()));
pool.submit(new Runnable() {
@Override
@ -404,7 +405,22 @@ public class XmrWalletService {
throw new RuntimeException(e);
}
}
private void closeWallet(MoneroWallet walletRpc, boolean save) {
log.info("{}.closeWallet({}, {})", getClass().getSimpleName(), walletRpc.getPath(), save);
MONERO_WALLET_RPC_MANAGER.stopInstance((MoneroWalletRpc) walletRpc, save);
}
private void deleteWallet(String walletName) {
log.info("{}.deleteWallet({})", getClass().getSimpleName(), walletName);
if (!walletExists(walletName)) throw new Error("Wallet does not exist at path: " + walletName);
String path = walletDir.toString() + File.separator + walletName;
if (!new File(path).delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
if (!new File(path + ".keys").delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
if (!new File(path + ".address.txt").delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
// WalletsSetup.deleteRollingBackup(walletName); // TODO (woodser): necessary to delete rolling backup?
}
private void closeAllWallets() {
// collect wallets to shutdown

25
core/src/main/java/bisq/core/offer/OpenOfferManager.java
View File

@ -413,7 +413,7 @@ public class OpenOfferManager implements PeerManager.Listener, DecryptedDirectMe
PlaceOfferProtocol placeOfferProtocol = new PlaceOfferProtocol(
model,
transaction -> {
// save reserve tx with open offer
OpenOffer openOffer = new OpenOffer(offer, triggerPrice, model.getReserveTx().getHash(), model.getReserveTx().getFullHex(), model.getReserveTx().getKey());
openOffers.add(openOffer);
@ -428,8 +428,10 @@ public class OpenOfferManager implements PeerManager.Listener, DecryptedDirectMe
},
errorMessageHandler
);
placeOfferProtocols.put(offer.getId(), placeOfferProtocol);
synchronized (placeOfferProtocols) {
placeOfferProtocols.put(offer.getId(), placeOfferProtocol);
}
placeOfferProtocol.placeOffer(); // TODO (woodser): if error placing offer (e.g. bad signature), remove protocol and unfreeze trade funds
}
@ -567,13 +569,13 @@ public class OpenOfferManager implements PeerManager.Listener, DecryptedDirectMe
}
private void onRemoved(@NotNull OpenOffer openOffer, ResultHandler resultHandler, Offer offer) {
for (String frozenKeyImage : offer.getOfferPayload().getReserveTxKeyImages()) xmrWalletService.getWallet().thawOutput(frozenKeyImage);
offer.setState(Offer.State.REMOVED);
openOffer.setState(OpenOffer.State.CANCELED);
openOffers.remove(openOffer);
closedTradableManager.add(openOffer);
log.info("onRemoved offerId={}", offer.getId());
btcWalletService.resetAddressEntriesForOpenOffer(offer.getId());
for (String frozenKeyImage : offer.getOfferPayload().getReserveTxKeyImages()) xmrWalletService.getWallet().thawOutput(frozenKeyImage);
requestPersistence();
resultHandler.handleResult();
}
@ -725,14 +727,17 @@ public class OpenOfferManager implements PeerManager.Listener, DecryptedDirectMe
private void handleSignOfferResponse(SignOfferResponse response, NodeAddress peer) {
log.info("Received SignOfferResponse from {} with offerId {} and uid {}",
peer, response.getOfferId(), response.getUid());
// get previously created protocol
PlaceOfferProtocol protocol = placeOfferProtocols.get(response.getOfferId());
if (protocol == null) {
log.warn("No place offer protocol created for offer " + response.getOfferId());
return;
PlaceOfferProtocol protocol;
synchronized (placeOfferProtocols) {
protocol = placeOfferProtocols.get(response.getOfferId());
if (protocol == null) {
log.warn("No place offer protocol created for offer " + response.getOfferId());
return;
}
}
// handle response
protocol.handleSignOfferResponse(response, peer);
}

2
core/src/main/java/bisq/core/offer/availability/OfferAvailabilityProtocol.java
View File

@ -114,7 +114,7 @@ public class OfferAvailabilityProtocol {
///////////////////////////////////////////////////////////////////////////////////////////
private void handleOfferAvailabilityResponse(OfferAvailabilityResponse message, NodeAddress peersNodeAddress) {
log.info("Received handleOfferAvailabilityResponse from {} with offerId {} and uid {}",
log.info("Received OfferAvailabilityResponse from {} with offerId {} and uid {}",
peersNodeAddress, message.getOfferId(), message.getUid());
stopTimeout();

39
core/src/main/java/bisq/core/offer/placeoffer/tasks/MakerReservesTradeFunds.java
View File

@ -45,27 +45,26 @@ public class MakerReservesTradeFunds extends Task<PlaceOfferModel> {
try {
runInterceptHook();
// create transaction to reserve trade
String returnAddress = model.getXmrWalletService().getOrCreateAddressEntry(offer.getId(), XmrAddressEntry.Context.TRADE_PAYOUT).getAddressString();
BigInteger makerFee = ParsingUtils.coinToAtomicUnits(offer.getMakerFee());
BigInteger depositAmount = ParsingUtils.coinToAtomicUnits(model.getReservedFundsForOffer());
MoneroTxWallet reserveTx = TradeUtils.createReserveTx(model.getXmrWalletService(), offer.getId(), makerFee, returnAddress, depositAmount);
// freeze reserved outputs
// TODO (woodser): synchronize to handle potential race condition where concurrent trades freeze each other's outputs
List<String> reservedKeyImages = new ArrayList<String>();
MoneroWallet wallet = model.getXmrWalletService().getWallet();
for (MoneroOutput input : reserveTx.getInputs()) {
reservedKeyImages.add(input.getKeyImage().getHex());
wallet.freezeOutput(input.getKeyImage().getHex());
// synchronize on wallet to reserve key images
synchronized (model.getXmrWalletService().getWallet()) {
// create transaction to reserve trade
String returnAddress = model.getXmrWalletService().getOrCreateAddressEntry(offer.getId(), XmrAddressEntry.Context.TRADE_PAYOUT).getAddressString();
BigInteger makerFee = ParsingUtils.coinToAtomicUnits(offer.getMakerFee());
BigInteger depositAmount = ParsingUtils.coinToAtomicUnits(model.getReservedFundsForOffer());
MoneroTxWallet reserveTx = TradeUtils.reserveTradeFunds(model.getXmrWalletService(), offer.getId(), makerFee, returnAddress, depositAmount);
// collect reserved key images // TODO (woodser): switch to proof of reserve?
List<String> reservedKeyImages = new ArrayList<String>();
for (MoneroOutput input : reserveTx.getInputs()) reservedKeyImages.add(input.getKeyImage().getHex());
// save offer state
// TODO (woodser): persist
model.setReserveTx(reserveTx);
offer.getOfferPayload().setReserveTxKeyImages(reservedKeyImages);
offer.setOfferFeePaymentTxId(reserveTx.getHash()); // TODO (woodser): don't use this field
complete();
}
// save offer state
// TODO (woodser): persist
model.setReserveTx(reserveTx);
offer.getOfferPayload().setReserveTxKeyImages(reservedKeyImages);
offer.setOfferFeePaymentTxId(reserveTx.getHash()); // TODO (woodser): don't use this field
complete();
} catch (Throwable t) {
offer.setErrorMessage("An error occurred.\n" +
"Error message:\n"

1
core/src/main/java/bisq/core/offer/placeoffer/tasks/MakerSendsSignOfferRequest.java
View File

@ -84,6 +84,7 @@ public class MakerSendsSignOfferRequest extends Task<PlaceOfferModel> {
if (!sender.equals(arbitrator.getNodeAddress())) return;
AckMessage ackMessage = (AckMessage) decryptedMessageWithPubKey.getNetworkEnvelope();
if (!ackMessage.getSourceMsgClassName().equals(SignOfferRequest.class.getSimpleName())) return;
if (!ackMessage.getSourceUid().equals(request.getUid())) return;
if (ackMessage.isSuccess()) {
offer.setState(Offer.State.OFFER_FEE_RESERVED);
model.getP2PService().removeDecryptedDirectMessageListener(this);

2
core/src/main/java/bisq/core/offer/takeoffer/TakeOfferModel.java
View File

@ -114,7 +114,7 @@ public class TakeOfferModel implements Model {
this.clearModel();
this.offer = offer;
this.paymentAccount = paymentAccount;
this.addressEntry = btcWalletService.getOrCreateAddressEntry(offer.getId(), OFFER_FUNDING);
this.addressEntry = btcWalletService.getOrCreateAddressEntry(offer.getId(), OFFER_FUNDING); // TODO (woodser): replace with xmr or remove
validateModelInputs();
this.useSavingsWallet = useSavingsWallet;

9
core/src/main/java/bisq/core/presentation/TradePresentation.java
View File

@ -17,6 +17,7 @@
package bisq.core.presentation;
import bisq.common.UserThread;
import bisq.core.trade.TradeManager;
import javax.inject.Inject;
@ -38,10 +39,12 @@ public class TradePresentation {
public TradePresentation(TradeManager tradeManager) {
tradeManager.getNumPendingTrades().addListener((observable, oldValue, newValue) -> {
long numPendingTrades = (long) newValue;
if (numPendingTrades > 0)
this.numPendingTrades.set(String.valueOf(numPendingTrades));
UserThread.execute(() -> {
if (numPendingTrades > 0)
this.numPendingTrades.set(String.valueOf(numPendingTrades));
showPendingTradesNotification.set(numPendingTrades > 0);
showPendingTradesNotification.set(numPendingTrades > 0);
});
});
}
}

5
core/src/main/java/bisq/core/provider/fee/FeeService.java
View File

@ -128,11 +128,6 @@ public class FeeService {
}
public void requestFees(@Nullable Runnable resultHandler, @Nullable FaultHandler faultHandler) {
if (feeProvider.getHttpClient().hasPendingRequest()) {
log.warn("We have a pending request open. We ignore that request. httpClient {}", feeProvider.getHttpClient());
return;
}
long now = Instant.now().getEpochSecond();
// We all requests only each 2 minutes
if (now - lastRequest > MIN_PAUSE_BETWEEN_REQUESTS_IN_MIN * 60) {

82
core/src/main/java/bisq/core/support/SupportManager.java
View File

@ -51,6 +51,7 @@ public abstract class SupportManager {
protected final CoreMoneroConnectionsService connectionService;
protected final CoreNotificationService notificationService;
protected final Map<String, Timer> delayMsgMap = new HashMap<>();
private final Object lock = new Object();
private final CopyOnWriteArraySet<DecryptedMessageWithPubKey> decryptedMailboxMessageWithPubKeys = new CopyOnWriteArraySet<>();
private final CopyOnWriteArraySet<DecryptedMessageWithPubKey> decryptedDirectMessageWithPubKeys = new CopyOnWriteArraySet<>();
protected final MailboxMessageService mailboxMessageService;
@ -69,16 +70,24 @@ public abstract class SupportManager {
// We get first the message handler called then the onBootstrapped
p2PService.addDecryptedDirectMessageListener((decryptedMessageWithPubKey, senderAddress) -> {
// As decryptedDirectMessageWithPubKeys is a CopyOnWriteArraySet we do not need to check if it was
// already stored
decryptedDirectMessageWithPubKeys.add(decryptedMessageWithPubKey);
tryApplyMessages();
if (isReady()) applyDirectMessage(decryptedMessageWithPubKey);
else {
synchronized (lock) {
// As decryptedDirectMessageWithPubKeys is a CopyOnWriteArraySet we do not need to check if it was already stored
decryptedDirectMessageWithPubKeys.add(decryptedMessageWithPubKey);
tryApplyMessages();
}
}
});
mailboxMessageService.addDecryptedMailboxListener((decryptedMessageWithPubKey, senderAddress) -> {
// As decryptedMailboxMessageWithPubKeys is a CopyOnWriteArraySet we do not need to check if it was
// already stored
decryptedMailboxMessageWithPubKeys.add(decryptedMessageWithPubKey);
tryApplyMessages();
if (isReady()) applyMailboxMessage(decryptedMessageWithPubKey);
else {
synchronized (lock) {
// As decryptedMailboxMessageWithPubKeys is a CopyOnWriteArraySet we do not need to check if it was already stored
decryptedDirectMessageWithPubKeys.add(decryptedMessageWithPubKey);
tryApplyMessages();
}
}
});
}
@ -138,6 +147,7 @@ public abstract class SupportManager {
protected void onChatMessage(ChatMessage chatMessage) {
final String tradeId = chatMessage.getTradeId();
final String uid = chatMessage.getUid();
log.info("Received {} from peer {}. tradeId={}, uid={}", chatMessage.getClass().getSimpleName(), chatMessage.getSenderNodeAddress(), tradeId, uid);
boolean channelOpen = channelOpen(chatMessage);
if (!channelOpen) {
log.debug("We got a chatMessage but we don't have a matching chat. TradeId = " + tradeId);
@ -293,6 +303,11 @@ public abstract class SupportManager {
}
}
///////////////////////////////////////////////////////////////////////////////////////////
// Private
///////////////////////////////////////////////////////////////////////////////////////////
private boolean isReady() {
return allServicesInitialized &&
p2PService.isBootstrapped() &&
@ -306,29 +321,34 @@ public abstract class SupportManager {
///////////////////////////////////////////////////////////////////////////////////////////
private void applyMessages() {
decryptedDirectMessageWithPubKeys.forEach(decryptedMessageWithPubKey -> {
NetworkEnvelope networkEnvelope = decryptedMessageWithPubKey.getNetworkEnvelope();
if (networkEnvelope instanceof SupportMessage) {
onSupportMessage((SupportMessage) networkEnvelope);
} else if (networkEnvelope instanceof AckMessage) {
onAckMessage((AckMessage) networkEnvelope);
}
});
decryptedDirectMessageWithPubKeys.clear();
synchronized (lock) {
decryptedDirectMessageWithPubKeys.forEach(decryptedMessageWithPubKey -> applyDirectMessage(decryptedMessageWithPubKey));
decryptedDirectMessageWithPubKeys.clear();
decryptedMailboxMessageWithPubKeys.forEach(decryptedMessageWithPubKey -> applyMailboxMessage(decryptedMessageWithPubKey));
decryptedMailboxMessageWithPubKeys.clear();
}
}
decryptedMailboxMessageWithPubKeys.forEach(decryptedMessageWithPubKey -> {
NetworkEnvelope networkEnvelope = decryptedMessageWithPubKey.getNetworkEnvelope();
log.trace("## decryptedMessageWithPubKey message={}", networkEnvelope.getClass().getSimpleName());
if (networkEnvelope instanceof SupportMessage) {
SupportMessage supportMessage = (SupportMessage) networkEnvelope;
onSupportMessage(supportMessage);
mailboxMessageService.removeMailboxMsg(supportMessage);
} else if (networkEnvelope instanceof AckMessage) {
AckMessage ackMessage = (AckMessage) networkEnvelope;
onAckMessage(ackMessage);
mailboxMessageService.removeMailboxMsg(ackMessage);
}
});
decryptedMailboxMessageWithPubKeys.clear();
private void applyDirectMessage(DecryptedMessageWithPubKey decryptedMessageWithPubKey) {
NetworkEnvelope networkEnvelope = decryptedMessageWithPubKey.getNetworkEnvelope();
if (networkEnvelope instanceof SupportMessage) {
onSupportMessage((SupportMessage) networkEnvelope);
} else if (networkEnvelope instanceof AckMessage) {
onAckMessage((AckMessage) networkEnvelope);
}
}
private void applyMailboxMessage(DecryptedMessageWithPubKey decryptedMessageWithPubKey) {
NetworkEnvelope networkEnvelope = decryptedMessageWithPubKey.getNetworkEnvelope();
log.trace("## decryptedMessageWithPubKey message={}", networkEnvelope.getClass().getSimpleName());
if (networkEnvelope instanceof SupportMessage) {
SupportMessage supportMessage = (SupportMessage) networkEnvelope;
onSupportMessage(supportMessage);
mailboxMessageService.removeMailboxMsg(supportMessage);
} else if (networkEnvelope instanceof AckMessage) {
AckMessage ackMessage = (AckMessage) networkEnvelope;
onAckMessage(ackMessage);
mailboxMessageService.removeMailboxMsg(ackMessage);
}
}
}

4
core/src/main/java/bisq/core/support/dispute/Dispute.java
View File

@ -23,7 +23,7 @@ import bisq.core.proto.CoreProtoResolver;
import bisq.core.support.SupportType;
import bisq.core.support.messages.ChatMessage;
import bisq.core.trade.Contract;
import bisq.common.UserThread;
import bisq.common.crypto.PubKeyRing;
import bisq.common.proto.ProtoUtil;
import bisq.common.proto.network.NetworkPayload;
@ -365,7 +365,7 @@ public final class Dispute implements NetworkPayload, PersistablePayload {
public void setState(Dispute.State disputeState) {
this.disputeState = disputeState;
this.isClosedProperty.set(disputeState == State.CLOSED);
UserThread.execute(() -> this.isClosedProperty.set(disputeState == State.CLOSED));
}
public void setDisputeResult(DisputeResult disputeResult) {

359
core/src/main/java/bisq/core/support/dispute/DisputeManager.java
View File

@ -302,67 +302,81 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
return;
}
String errorMessage = null;
Dispute dispute = openNewDisputeMessage.getDispute();
log.info("{}.onOpenNewDisputeMessage() with trade {}, dispute {}", getClass().getSimpleName(), dispute.getTradeId(), dispute.getId());
// Disputes from clients < 1.2.0 always have support type ARBITRATION in dispute as the field didn't exist before
dispute.setSupportType(openNewDisputeMessage.getSupportType());
// disputes from clients < 1.6.0 have state not set as the field didn't exist before
dispute.setState(Dispute.State.NEW); // this can be removed a few months after 1.6.0 release
Trade trade = tradeManager.getTrade(dispute.getTradeId());
if (trade == null) {
log.warn("Dispute trade {} does not exist", dispute.getTradeId());
return;
}
Contract contract = dispute.getContract();
addPriceInfoMessage(dispute, 0);
synchronized (trade) {
PubKeyRing peersPubKeyRing = dispute.isDisputeOpenerIsBuyer() ? contract.getSellerPubKeyRing() : contract.getBuyerPubKeyRing();
if (isAgent(dispute)) {
String errorMessage = null;
Contract contract = dispute.getContract();
addPriceInfoMessage(dispute, 0);
// update arbitrator's multisig wallet
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
multisigWallet.importMultisigHex(Arrays.asList(openNewDisputeMessage.getUpdatedMultisigHex()));
System.out.println("Arbitrator multisig wallet updated on new dispute message, current txs:");
System.out.println(multisigWallet.getTxs());
PubKeyRing peersPubKeyRing = dispute.isDisputeOpenerIsBuyer() ? contract.getSellerPubKeyRing() : contract.getBuyerPubKeyRing();
if (isAgent(dispute)) {
if (!disputeList.contains(dispute)) {
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent()) {
disputeList.add(dispute);
sendPeerOpenedDisputeMessage(dispute, contract, peersPubKeyRing);
} else {
// valid case if both have opened a dispute and agent was not online.
log.debug("We got a dispute already open for that trade and trading peer. TradeId = {}",
dispute.getTradeId());
// update arbitrator's multisig wallet
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
multisigWallet.importMultisigHex(Arrays.asList(openNewDisputeMessage.getUpdatedMultisigHex()));
log.info("Arbitrator multisig wallet updated on new dispute message for trade " + dispute.getTradeId());
// close multisig wallet
xmrWalletService.closeMultisigWallet(dispute.getTradeId());
synchronized (disputeList) {
if (!disputeList.contains(dispute)) {
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent()) {
disputeList.add(dispute);
sendPeerOpenedDisputeMessage(dispute, contract, peersPubKeyRing);
} else {
// valid case if both have opened a dispute and agent was not online.
log.debug("We got a dispute already open for that trade and trading peer. TradeId = {}",
dispute.getTradeId());
}
} else {
errorMessage = "We got a dispute msg that we have already stored. TradeId = " + dispute.getTradeId();
log.warn(errorMessage);
}
}
} else {
errorMessage = "We got a dispute msg what we have already stored. TradeId = " + dispute.getTradeId();
log.warn(errorMessage);
errorMessage = "Trader received openNewDisputeMessage. That must never happen.";
log.error(errorMessage);
}
} else {
errorMessage = "Trader received openNewDisputeMessage. That must never happen.";
log.error(errorMessage);
}
// We use the ChatMessage not the openNewDisputeMessage for the ACK
ObservableList<ChatMessage> messages = openNewDisputeMessage.getDispute().getChatMessages();
if (!messages.isEmpty()) {
ChatMessage msg = messages.get(0);
PubKeyRing sendersPubKeyRing = dispute.isDisputeOpenerIsBuyer() ? contract.getBuyerPubKeyRing() : contract.getSellerPubKeyRing();
sendAckMessage(msg, sendersPubKeyRing, errorMessage == null, errorMessage);
}
// We use the ChatMessage not the openNewDisputeMessage for the ACK
ObservableList<ChatMessage> messages = openNewDisputeMessage.getDispute().getChatMessages();
if (!messages.isEmpty()) {
ChatMessage msg = messages.get(0);
PubKeyRing sendersPubKeyRing = dispute.isDisputeOpenerIsBuyer() ? contract.getBuyerPubKeyRing() : contract.getSellerPubKeyRing();
sendAckMessage(msg, sendersPubKeyRing, errorMessage == null, errorMessage);
}
addMediationResultMessage(dispute);
addMediationResultMessage(dispute);
try {
TradeDataValidation.validatePaymentAccountPayloads(dispute);
TradeDataValidation.validateDonationAddress(dispute.getDonationAddressOfDelayedPayoutTx());
//TradeDataValidation.testIfDisputeTriesReplay(dispute, disputeList.getList()); // TODO (woodser): disabled for xmr, needed?
TradeDataValidation.validateNodeAddress(dispute, dispute.getContract().getBuyerNodeAddress(), config);
TradeDataValidation.validateNodeAddress(dispute, dispute.getContract().getSellerNodeAddress(), config);
} catch (TradeDataValidation.AddressException |
TradeDataValidation.NodeAddressException |
TradeDataValidation.InvalidPaymentAccountPayloadException e) {
log.error(e.toString());
validationExceptions.add(e);
try {
TradeDataValidation.validatePaymentAccountPayloads(dispute);
TradeDataValidation.validateDonationAddress(dispute.getDonationAddressOfDelayedPayoutTx());
//TradeDataValidation.testIfDisputeTriesReplay(dispute, disputeList.getList()); // TODO (woodser): disabled for xmr, needed?
TradeDataValidation.validateNodeAddress(dispute, dispute.getContract().getBuyerNodeAddress(), config);
TradeDataValidation.validateNodeAddress(dispute, dispute.getContract().getSellerNodeAddress(), config);
} catch (TradeDataValidation.AddressException |
TradeDataValidation.NodeAddressException |
TradeDataValidation.InvalidPaymentAccountPayloadException e) {
log.error(e.toString());
validationExceptions.add(e);
}
requestPersistence();
}
requestPersistence();
}
// Not-dispute-requester receives that msg from dispute agent
@ -375,44 +389,49 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
String errorMessage = null;
Dispute dispute = peerOpenedDisputeMessage.getDispute();
log.info("{}.onPeerOpenedDisputeMessage() with trade {}, dispute {}", getClass().getSimpleName(), dispute.getTradeId(), dispute.getId());
Optional<Trade> optionalTrade = tradeManager.getTradeById(dispute.getTradeId());
Optional<Trade> optionalTrade = tradeManager.getOpenTrade(dispute.getTradeId());
if (!optionalTrade.isPresent()) {
return;
}
Trade trade = optionalTrade.get();
if (!isAgent(dispute)) {
if (!disputeList.contains(dispute)) {
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent()) {
disputeList.add(dispute);
trade.setDisputeState(getDisputeStateStartedByPeer());
tradeManager.requestPersistence();
errorMessage = null;
} else {
// valid case if both have opened a dispute and agent was not online.
log.debug("We got a dispute already open for that trade and trading peer. TradeId = {}",
dispute.getTradeId());
synchronized (trade) {
if (!isAgent(dispute)) {
synchronized (disputeList) {
if (!disputeList.contains(dispute)) {
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent()) {
disputeList.add(dispute);
trade.setDisputeState(getDisputeStateStartedByPeer());
tradeManager.requestPersistence();
errorMessage = null;
} else {
// valid case if both have opened a dispute and agent was not online.
log.debug("We got a dispute already open for that trade and trading peer. TradeId = {}",
dispute.getTradeId());
}
} else {
errorMessage = "We got a dispute msg what we have already stored. TradeId = " + dispute.getTradeId();
log.warn(errorMessage);
}
}
} else {
errorMessage = "We got a dispute msg what we have already stored. TradeId = " + dispute.getTradeId();
log.warn(errorMessage);
errorMessage = "Arbitrator received peerOpenedDisputeMessage. That must never happen.";
log.error(errorMessage);
}
} else {
errorMessage = "Arbitrator received peerOpenedDisputeMessage. That must never happen.";
log.error(errorMessage);
}
// We use the ChatMessage not the peerOpenedDisputeMessage for the ACK
ObservableList<ChatMessage> messages = peerOpenedDisputeMessage.getDispute().getChatMessages();
if (!messages.isEmpty()) {
ChatMessage msg = messages.get(0);
sendAckMessage(msg, dispute.getAgentPubKeyRing(), errorMessage == null, errorMessage);
}
// We use the ChatMessage not the peerOpenedDisputeMessage for the ACK
ObservableList<ChatMessage> messages = peerOpenedDisputeMessage.getDispute().getChatMessages();
if (!messages.isEmpty()) {
ChatMessage msg = messages.get(0);
sendAckMessage(msg, dispute.getAgentPubKeyRing(), errorMessage == null, errorMessage);
}
sendAckMessage(peerOpenedDisputeMessage, dispute.getAgentPubKeyRing(), errorMessage == null, errorMessage);
requestPersistence();
sendAckMessage(peerOpenedDisputeMessage, dispute.getAgentPubKeyRing(), errorMessage == null, errorMessage);
requestPersistence();
}
}
@ -425,107 +444,112 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
String updatedMultisigHex,
ResultHandler resultHandler,
FaultHandler faultHandler) {
log.info("{}.sendOpenNewDisputeMessage() with trade {}, dispute {}", getClass().getSimpleName(), dispute.getTradeId(), dispute.getId());
T disputeList = getDisputeList();
if (disputeList == null) {
log.warn("disputes is null");
return;
}
if (disputeList.contains(dispute)) {
String msg = "We got a dispute msg what we have already stored. TradeId = " + dispute.getTradeId();
log.warn(msg);
faultHandler.handleFault(msg, new DisputeAlreadyOpenException());
return;
}
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent() || reOpen) {
String disputeInfo = getDisputeInfo(dispute);
String sysMsg = dispute.isSupportTicket() ?
Res.get("support.youOpenedTicket", disputeInfo, Version.VERSION)
: Res.get("support.youOpenedDispute", disputeInfo, Version.VERSION);
ChatMessage chatMessage = new ChatMessage(
getSupportType(),
dispute.getTradeId(),
pubKeyRing.hashCode(),
false,
Res.get("support.systemMsg", sysMsg),
p2PService.getAddress());
chatMessage.setSystemMessage(true);
dispute.addAndPersistChatMessage(chatMessage);
if (!reOpen) {
disputeList.add(dispute);
synchronized (disputeList) {
if (disputeList.contains(dispute)) {
String msg = "We got a dispute msg what we have already stored. TradeId = " + dispute.getTradeId() + ", DisputeId = " + dispute.getId();
log.warn(msg);
faultHandler.handleFault(msg, new DisputeAlreadyOpenException());
return;
}
NodeAddress agentNodeAddress = getAgentNodeAddress(dispute);
OpenNewDisputeMessage openNewDisputeMessage = new OpenNewDisputeMessage(dispute,
p2PService.getAddress(),
UUID.randomUUID().toString(),
getSupportType(),
updatedMultisigHex);
log.info("Send {} to peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
mailboxMessageService.sendEncryptedMailboxMessage(agentNodeAddress,
dispute.getAgentPubKeyRing(),
openNewDisputeMessage,
new SendMailboxMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived at peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent() || reOpen) {
String disputeInfo = getDisputeInfo(dispute);
String sysMsg = dispute.isSupportTicket() ?
Res.get("support.youOpenedTicket", disputeInfo, Version.VERSION)
: Res.get("support.youOpenedDispute", disputeInfo, Version.VERSION);
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setArrived(true);
requestPersistence();
resultHandler.handleResult();
ChatMessage chatMessage = new ChatMessage(
getSupportType(),
dispute.getTradeId(),
pubKeyRing.hashCode(),
false,
Res.get("support.systemMsg", sysMsg),
p2PService.getAddress());
chatMessage.setSystemMessage(true);
dispute.addAndPersistChatMessage(chatMessage);
if (!reOpen) {
disputeList.add(dispute);
}
NodeAddress agentNodeAddress = getAgentNodeAddress(dispute);
OpenNewDisputeMessage openNewDisputeMessage = new OpenNewDisputeMessage(dispute,
p2PService.getAddress(),
UUID.randomUUID().toString(),
getSupportType(),
updatedMultisigHex);
log.info("Send {} to peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
mailboxMessageService.sendEncryptedMailboxMessage(agentNodeAddress,
dispute.getAgentPubKeyRing(),
openNewDisputeMessage,
new SendMailboxMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived at peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setArrived(true);
requestPersistence();
resultHandler.handleResult();
}
@Override
public void onStoredInMailbox() {
log.info("{} stored in mailbox for peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setStoredInMailbox(true);
requestPersistence();
resultHandler.handleResult();
}
@Override
public void onFault(String errorMessage) {
log.error("{} failed: Peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}, errorMessage={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid(), errorMessage);
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setSendMessageError(errorMessage);
requestPersistence();
faultHandler.handleFault("Sending dispute message failed: " +
errorMessage, new DisputeMessageDeliveryFailedException());
}
}
@Override
public void onStoredInMailbox() {
log.info("{} stored in mailbox for peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setStoredInMailbox(true);
requestPersistence();
resultHandler.handleResult();
}
@Override
public void onFault(String errorMessage) {
log.error("{} failed: Peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}, errorMessage={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid(), errorMessage);
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setSendMessageError(errorMessage);
requestPersistence();
faultHandler.handleFault("Sending dispute message failed: " +
errorMessage, new DisputeMessageDeliveryFailedException());
}
}
);
} else {
String msg = "We got a dispute already open for that trade and trading peer.\n" +
"TradeId = " + dispute.getTradeId();
log.warn(msg);
faultHandler.handleFault(msg, new DisputeAlreadyOpenException());
);
} else {
String msg = "We got a dispute already open for that trade and trading peer.\n" +
"TradeId = " + dispute.getTradeId();
log.warn(msg);
faultHandler.handleFault(msg, new DisputeAlreadyOpenException());
}
}
requestPersistence();
}
@ -533,6 +557,7 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
private void sendPeerOpenedDisputeMessage(Dispute disputeFromOpener,
Contract contractFromOpener,
PubKeyRing pubKeyRing) {
log.info("{}.sendPeerOpenedDisputeMessage() with trade {}, dispute {}", getClass().getSimpleName(), disputeFromOpener.getTradeId(), disputeFromOpener.getId());
// We delay a bit for sending the message to the peer to allow that a openDispute message from the peer is
// being used as the valid msg. If dispute agent was offline and both peer requested we want to see the correct
// message and not skip the system message of the peer as it would be the case if we have created the system msg
@ -604,7 +629,9 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
addPriceInfoMessage(dispute, 0);
disputeList.add(dispute);
synchronized (disputeList) {
disputeList.add(dispute);
}
// We mirrored dispute already!
Contract contract = dispute.getContract();
@ -826,9 +853,9 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
}
public Optional<Trade> findTrade(Dispute dispute) {
Optional<Trade> retVal = tradeManager.getTradeById(dispute.getTradeId());
Optional<Trade> retVal = tradeManager.getOpenTrade(dispute.getTradeId());
if (!retVal.isPresent()) {
retVal = closedTradableManager.getClosedTrades().stream().filter(e -> e.getId().equals(dispute.getTradeId())).findFirst();
retVal = tradeManager.getClosedTrade(dispute.getTradeId());
}
return retVal;
}

388
core/src/main/java/bisq/core/support/dispute/arbitration/ArbitrationManager.java
View File

@ -120,8 +120,8 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
@Override
public void onSupportMessage(SupportMessage message) {
if (canProcessMessage(message)) {
log.info("Received {} with tradeId {} and uid {}",
message.getClass().getSimpleName(), message.getTradeId(), message.getUid());
log.info("Received {} from {} with tradeId {} and uid {}",
message.getClass().getSimpleName(), message.getSenderNodeAddress(), message.getTradeId(), message.getUid());
if (message instanceof OpenNewDisputeMessage) {
onOpenNewDisputeMessage((OpenNewDisputeMessage) message);
@ -195,9 +195,10 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
DisputeResult disputeResult = disputeResultMessage.getDisputeResult();
ChatMessage chatMessage = disputeResult.getChatMessage();
checkNotNull(chatMessage, "chatMessage must not be null");
Optional<Trade> tradeOptional = tradeManager.getTradeById(disputeResult.getTradeId());
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(disputeResult.getTradeId());
String tradeId = disputeResult.getTradeId();
log.info("{}.onDisputeResultMessage() for trade {}", getClass().getSimpleName(), disputeResult.getTradeId());
Optional<Dispute> disputeOptional = findDispute(disputeResult);
String uid = disputeResultMessage.getUid();
if (!disputeOptional.isPresent()) {
@ -239,7 +240,6 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
String errorMessage = null;
boolean success = true;
boolean requestUpdatedPayoutTx = false;
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
Contract contract = dispute.getContract();
try {
// We need to avoid publishing the tx from both traders as it would create problems with zero confirmation withdrawals
@ -269,7 +269,7 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
} else {
Optional<Tradable> tradableOptional = closedTradableManager.getTradableById(tradeId);
if (tradableOptional.isPresent() && tradableOptional.get() instanceof Trade) {
payoutTx = ((Trade) tradableOptional.get()).getPayoutTx();
payoutTx = ((Trade) tradableOptional.get()).getPayoutTx(); // TODO (woodser): payout tx is transient so won't exist after restart?
}
}
@ -334,7 +334,14 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
sendAckMessage(chatMessage, dispute.getAgentPubKeyRing(), success, errorMessage);
// If dispute opener's peer is co-signer, send updated multisig hex to arbitrator to receive updated payout tx
if (requestUpdatedPayoutTx) sendArbitratorPayoutTxRequest(multisigWallet.getMultisigHex(), dispute, contract);
if (requestUpdatedPayoutTx) {
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(tradeId); // TODO (woodser): this is closed after sending ArbitratorPayoutTxRequest to arbitrator which opens and syncs multisig and responds with signed dispute tx. more efficient way is to include with arbitrator-signed dispute tx with dispute result?
sendArbitratorPayoutTxRequest(multisigWallet.getMultisigHex(), dispute, contract);
xmrWalletService.closeMultisigWallet(tradeId);
}
}
}
requestPersistence();
@ -344,136 +351,218 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
private void onDisputedPayoutTxMessage(PeerPublishedDisputePayoutTxMessage peerPublishedDisputePayoutTxMessage) {
String uid = peerPublishedDisputePayoutTxMessage.getUid();
String tradeId = peerPublishedDisputePayoutTxMessage.getTradeId();
Optional<Dispute> disputeOptional = findDispute(tradeId);
if (!disputeOptional.isPresent()) {
log.debug("We got a peerPublishedPayoutTxMessage but we don't have a matching dispute. TradeId = " + tradeId);
if (!delayMsgMap.containsKey(uid)) {
// We delay 3 sec. to be sure the close msg gets added first
Timer timer = UserThread.runAfter(() -> onDisputedPayoutTxMessage(peerPublishedDisputePayoutTxMessage), 3);
delayMsgMap.put(uid, timer);
} else {
log.warn("We got a peerPublishedPayoutTxMessage after we already repeated to apply the message after a delay. " +
"That should never happen. TradeId = " + tradeId);
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
// get dispute and trade
Optional<Dispute> disputeOptional = findDispute(tradeId);
if (!disputeOptional.isPresent()) {
log.debug("We got a peerPublishedPayoutTxMessage but we don't have a matching dispute. TradeId = " + tradeId);
if (!delayMsgMap.containsKey(uid)) {
// We delay 3 sec. to be sure the close msg gets added first
Timer timer = UserThread.runAfter(() -> onDisputedPayoutTxMessage(peerPublishedDisputePayoutTxMessage), 3);
delayMsgMap.put(uid, timer);
} else {
log.warn("We got a peerPublishedPayoutTxMessage after we already repeated to apply the message after a delay. " +
"That should never happen. TradeId = " + tradeId);
}
return;
}
return;
Dispute dispute = disputeOptional.get();
Contract contract = dispute.getContract();
boolean isBuyer = pubKeyRing.equals(contract.getBuyerPubKeyRing());
PubKeyRing peersPubKeyRing = isBuyer ? contract.getSellerPubKeyRing() : contract.getBuyerPubKeyRing();
cleanupRetryMap(uid);
// update multisig wallet
if (xmrWalletService.multisigWalletExists(tradeId)) { // TODO: multisig wallet may already be deleted if peer completed trade with arbitrator. refactor trade completion?
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
multisigWallet.importMultisigHex(Arrays.asList(peerPublishedDisputePayoutTxMessage.getUpdatedMultisigHex()));
MoneroTxWallet parsedPayoutTx = multisigWallet.describeTxSet(new MoneroTxSet().setMultisigTxHex(peerPublishedDisputePayoutTxMessage.getPayoutTxHex())).getTxs().get(0);
xmrWalletService.closeMultisigWallet(tradeId);
dispute.setDisputePayoutTxId(parsedPayoutTx.getHash());
XmrWalletService.printTxs("Disputed payoutTx received from peer", parsedPayoutTx);
}
// System.out.println("LOSER'S VIEW OF MULTISIG WALLET (SHOULD INCLUDE PAYOUT TX):\n" + multisigWallet.getTxs());
// if (multisigWallet.getTxs().size() != 3) throw new RuntimeException("Loser's multisig wallet does not include record of payout tx");
// Transaction committedDisputePayoutTx = WalletService.maybeAddNetworkTxToWallet(peerPublishedDisputePayoutTxMessage.getTransaction(), btcWalletService.getWallet());
// We can only send the ack msg if we have the peersPubKeyRing which requires the dispute
sendAckMessage(peerPublishedDisputePayoutTxMessage, peersPubKeyRing, true, null);
requestPersistence();
}
Dispute dispute = disputeOptional.get();
Contract contract = dispute.getContract();
boolean isBuyer = pubKeyRing.equals(contract.getBuyerPubKeyRing());
PubKeyRing peersPubKeyRing = isBuyer ? contract.getSellerPubKeyRing() : contract.getBuyerPubKeyRing();
cleanupRetryMap(uid);
// update multisig wallet
// TODO: multisig wallet may already be deleted if peer completed trade with arbitrator. refactor trade completion?
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
if (multisigWallet != null) {
multisigWallet.importMultisigHex(Arrays.asList(peerPublishedDisputePayoutTxMessage.getUpdatedMultisigHex()));
MoneroTxWallet parsedPayoutTx = multisigWallet.describeTxSet(new MoneroTxSet().setMultisigTxHex(peerPublishedDisputePayoutTxMessage.getPayoutTxHex())).getTxs().get(0);
dispute.setDisputePayoutTxId(parsedPayoutTx.getHash());
XmrWalletService.printTxs("Disputed payoutTx received from peer", parsedPayoutTx);
}
// System.out.println("LOSER'S VIEW OF MULTISIG WALLET (SHOULD INCLUDE PAYOUT TX):\n" + multisigWallet.getTxs());
// if (multisigWallet.getTxs().size() != 3) throw new RuntimeException("Loser's multisig wallet does not include record of payout tx");
// Transaction committedDisputePayoutTx = WalletService.maybeAddNetworkTxToWallet(peerPublishedDisputePayoutTxMessage.getTransaction(), btcWalletService.getWallet());
// We can only send the ack msg if we have the peersPubKeyRing which requires the dispute
sendAckMessage(peerPublishedDisputePayoutTxMessage, peersPubKeyRing, true, null);
requestPersistence();
}
// Arbitrator receives updated multisig hex from dispute opener's peer (if co-signer) and returns updated payout tx to be signed and published
private void onArbitratorPayoutTxRequest(ArbitratorPayoutTxRequest request) {
log.info("{}.onArbitratorPayoutTxRequest()", getClass().getSimpleName());
String tradeId = request.getTradeId();
Dispute dispute = findDispute(request.getDispute().getTradeId(), request.getDispute().getTraderId()).get();
DisputeResult disputeResult = dispute.getDisputeResultProperty().get();
Contract contract = dispute.getContract();
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
Dispute dispute = findDispute(request.getDispute().getTradeId(), request.getDispute().getTraderId()).get();
DisputeResult disputeResult = dispute.getDisputeResultProperty().get();
Contract contract = dispute.getContract();
// verify sender is co-signer and receiver is arbitrator
System.out.println("Any of these null???"); // TODO (woodser): NPE if dispute opener's peer-as-cosigner's ticket is closed first
System.out.println(disputeResult);
System.out.println(disputeResult.getWinner());
System.out.println(contract.getBuyerNodeAddress());
System.out.println(contract.getSellerNodeAddress());
boolean senderIsWinner = (disputeResult.getWinner() == Winner.BUYER && contract.getBuyerNodeAddress().equals(request.getSenderNodeAddress())) || (disputeResult.getWinner() == Winner.SELLER && contract.getSellerNodeAddress().equals(request.getSenderNodeAddress()));
boolean senderIsCosigner = senderIsWinner || disputeResult.isLoserPublisher();
boolean receiverIsArbitrator = pubKeyRing.equals(dispute.getAgentPubKeyRing());
// verify sender is co-signer and receiver is arbitrator
System.out.println("Any of these null???"); // TODO (woodser): NPE if dispute opener's peer-as-cosigner's ticket is closed first
System.out.println(disputeResult);
System.out.println(disputeResult.getWinner());
System.out.println(contract.getBuyerNodeAddress());
System.out.println(contract.getSellerNodeAddress());
boolean senderIsWinner = (disputeResult.getWinner() == Winner.BUYER && contract.getBuyerNodeAddress().equals(request.getSenderNodeAddress())) || (disputeResult.getWinner() == Winner.SELLER && contract.getSellerNodeAddress().equals(request.getSenderNodeAddress()));
boolean senderIsCosigner = senderIsWinner || disputeResult.isLoserPublisher();
boolean receiverIsArbitrator = pubKeyRing.equals(dispute.getAgentPubKeyRing());
System.out.println("TESTING PUB KEY RINGS");
System.out.println(pubKeyRing);
System.out.println(dispute.getAgentPubKeyRing());
System.out.println("Receiver is arbitrator: " + receiverIsArbitrator);
System.out.println("TESTING PUB KEY RINGS");
System.out.println(pubKeyRing);
System.out.println(dispute.getAgentPubKeyRing());
System.out.println("Receiver is arbitrator: " + receiverIsArbitrator);
if (!senderIsCosigner) {
log.warn("Received ArbitratorPayoutTxRequest but sender is not co-signer for trade id " + tradeId);
return;
}
if (!receiverIsArbitrator) {
log.warn("Received ArbitratorPayoutTxRequest but receiver is not arbitrator for trade id " + tradeId);
return;
}
// update arbitrator's multisig wallet with co-signer's multisig hex
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
try {
multisigWallet.importMultisigHex(Arrays.asList(request.getUpdatedMultisigHex()));
} catch (Exception e) {
log.warn("Failed to import multisig hex from payout co-signer for trade id " + tradeId);
return;
}
// create updated payout tx
MoneroTxWallet payoutTx = arbitratorCreatesDisputedPayoutTx(contract, dispute, disputeResult, multisigWallet);
System.out.println("Arbitrator created updated payout tx for co-signer!!!");
System.out.println(payoutTx);
// send updated payout tx to sender
PubKeyRing senderPubKeyRing = contract.getBuyerNodeAddress().equals(request.getSenderNodeAddress()) ? contract.getBuyerPubKeyRing() : contract.getSellerPubKeyRing();
ArbitratorPayoutTxResponse response = new ArbitratorPayoutTxResponse(
tradeId,
p2PService.getAddress(),
UUID.randomUUID().toString(),
SupportType.ARBITRATION,
payoutTx.getTxSet().getMultisigTxHex());
log.info("Send {} to peer {}. tradeId={}, uid={}", response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid());
p2PService.sendEncryptedDirectMessage(request.getSenderNodeAddress(),
senderPubKeyRing,
response,
new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived at peer {}. tradeId={}, uid={}",
response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid());
}
@Override
public void onFault(String errorMessage) {
log.error("{} failed: Peer {}. tradeId={}, uid={}, errorMessage={}",
response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid(), errorMessage);
}
if (!senderIsCosigner) {
log.warn("Received ArbitratorPayoutTxRequest but sender is not co-signer for trade id " + tradeId);
return;
}
);
if (!receiverIsArbitrator) {
log.warn("Received ArbitratorPayoutTxRequest but receiver is not arbitrator for trade id " + tradeId);
return;
}
// update arbitrator's multisig wallet with co-signer's multisig hex
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
try {
multisigWallet.importMultisigHex(Arrays.asList(request.getUpdatedMultisigHex()));
} catch (Exception e) {
log.warn("Failed to import multisig hex from payout co-signer for trade id " + tradeId);
return;
}
// create updated payout tx
MoneroTxWallet payoutTx = arbitratorCreatesDisputedPayoutTx(contract, dispute, disputeResult, multisigWallet);
System.out.println("Arbitrator created updated payout tx for co-signer!!!");
System.out.println(payoutTx);
// close multisig wallet
xmrWalletService.closeMultisigWallet(tradeId);
// send updated payout tx to sender
PubKeyRing senderPubKeyRing = contract.getBuyerNodeAddress().equals(request.getSenderNodeAddress()) ? contract.getBuyerPubKeyRing() : contract.getSellerPubKeyRing();
ArbitratorPayoutTxResponse response = new ArbitratorPayoutTxResponse(
tradeId,
p2PService.getAddress(),
UUID.randomUUID().toString(),
SupportType.ARBITRATION,
payoutTx.getTxSet().getMultisigTxHex());
log.info("Send {} to peer {}. tradeId={}, uid={}", response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid());
p2PService.sendEncryptedDirectMessage(request.getSenderNodeAddress(),
senderPubKeyRing,
response,
new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived at peer {}. tradeId={}, uid={}",
response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid());
}
@Override
public void onFault(String errorMessage) {
log.error("{} failed: Peer {}. tradeId={}, uid={}, errorMessage={}",
response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid(), errorMessage);
}
}
);
}
}
// Dispute opener's peer receives updated payout tx after providing updated multisig hex (if co-signer)
private void onArbitratorPayoutTxResponse(ArbitratorPayoutTxResponse response) {
log.info("{}.onArbitratorPayoutTxResponse()", getClass().getSimpleName());
// gather and verify trade info // TODO (woodser): verify response is from arbitrator, etc
String tradeId = response.getTradeId();
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
// verify and sign dispute payout tx
MoneroTxSet signedPayoutTx = traderSignsDisputePayoutTx(tradeId, response.getArbitratorSignedPayoutTxHex());
// verify and sign dispute payout tx
MoneroTxSet signedPayoutTx = traderSignsDisputePayoutTx(tradeId, response.getArbitratorSignedPayoutTxHex());
// process fully signed payout tx (publish, notify peer, etc)
onTraderSignedDisputePayoutTx(tradeId, signedPayoutTx);
// process fully signed payout tx (publish, notify peer, etc)
onTraderSignedDisputePayoutTx(tradeId, signedPayoutTx);
}
}
private MoneroTxSet traderSignsDisputePayoutTx(String tradeId, String payoutTxHex) {
// gather trade info
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(tradeId);
Optional<Dispute> disputeOptional = findDispute(tradeId);
if (!disputeOptional.isPresent()) throw new RuntimeException("Trader has no dispute when signing dispute payout tx. This should never happen. TradeId = " + tradeId);
Dispute dispute = disputeOptional.get();
Contract contract = dispute.getContract();
DisputeResult disputeResult = dispute.getDisputeResultProperty().get();
// Offer offer = checkNotNull(trade.getOffer(), "offer must not be null");
// BigInteger sellerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? trade.getMaker().getDepositTxHash() : trade.getTaker().getDepositTxHash()).getIncomingAmount(); // TODO (woodser): use contract instead of trade to get deposit tx ids when contract has deposit tx ids
// BigInteger buyerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? trade.getTaker().getDepositTxHash() : trade.getMaker().getDepositTxHash()).getIncomingAmount();
// BigInteger tradeAmount = BigInteger.valueOf(contract.getTradeAmount().value).multiply(ParsingUtils.XMR_SATOSHI_MULTIPLIER);
// parse arbitrator-signed payout tx
MoneroTxSet parsedTxSet = multisigWallet.describeTxSet(new MoneroTxSet().setMultisigTxHex(payoutTxHex));
if (parsedTxSet.getTxs() == null || parsedTxSet.getTxs().size() != 1) throw new RuntimeException("Bad arbitrator-signed payout tx"); // TODO (woodser): nack
MoneroTxWallet arbitratorSignedPayoutTx = parsedTxSet.getTxs().get(0);
log.info("Received updated multisig hex and partially signed payout tx from arbitrator:\n" + arbitratorSignedPayoutTx);
// verify payout tx has 1 or 2 destinations
int numDestinations = arbitratorSignedPayoutTx.getOutgoingTransfer() == null || arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations() == null ? 0 : arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations().size();
if (numDestinations != 1 && numDestinations != 2) throw new RuntimeException("Buyer-signed payout tx does not have 1 or 2 destinations");
// get buyer and seller destinations (order not preserved)
List<MoneroDestination> destinations = arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations();
boolean buyerFirst = destinations.get(0).getAddress().equals(contract.getBuyerPayoutAddressString());
MoneroDestination buyerPayoutDestination = buyerFirst ? destinations.get(0) : numDestinations == 2 ? destinations.get(1) : null;
MoneroDestination sellerPayoutDestination = buyerFirst ? (numDestinations == 2 ? destinations.get(1) : null) : destinations.get(0);
// verify payout addresses
if (buyerPayoutDestination != null && !buyerPayoutDestination.getAddress().equals(contract.getBuyerPayoutAddressString())) throw new RuntimeException("Buyer payout address does not match contract");
if (sellerPayoutDestination != null && !sellerPayoutDestination.getAddress().equals(contract.getSellerPayoutAddressString())) throw new RuntimeException("Seller payout address does not match contract");
// verify change address is multisig's primary address
if (!arbitratorSignedPayoutTx.getChangeAmount().equals(BigInteger.ZERO) && !arbitratorSignedPayoutTx.getChangeAddress().equals(multisigWallet.getPrimaryAddress())) throw new RuntimeException("Change address is not multisig wallet's primary address");
// verify sum of outputs = destination amounts + change amount
BigInteger destinationSum = (buyerPayoutDestination == null ? BigInteger.ZERO : buyerPayoutDestination.getAmount()).add(sellerPayoutDestination == null ? BigInteger.ZERO : sellerPayoutDestination.getAmount());
if (!arbitratorSignedPayoutTx.getOutputSum().equals(destinationSum.add(arbitratorSignedPayoutTx.getChangeAmount()))) throw new RuntimeException("Sum of outputs != destination amounts + change amount");
// TODO (woodser): verify fee is reasonable (e.g. within 2x of fee estimate tx)
// verify winner and loser payout amounts
BigInteger txCost = arbitratorSignedPayoutTx.getFee().add(arbitratorSignedPayoutTx.getChangeAmount()); // fee + lost dust change
BigInteger expectedWinnerAmount = ParsingUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getBuyerPayoutAmount() : disputeResult.getSellerPayoutAmount());
BigInteger expectedLoserAmount = ParsingUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getSellerPayoutAmount() : disputeResult.getBuyerPayoutAmount());
if (expectedLoserAmount.equals(BigInteger.ZERO)) expectedWinnerAmount = expectedWinnerAmount.subtract(txCost); // winner only pays tx cost if loser gets 0
else expectedLoserAmount = expectedLoserAmount.subtract(txCost); // loser pays tx cost
BigInteger actualWinnerAmount = disputeResult.getWinner() == Winner.BUYER ? buyerPayoutDestination.getAmount() : sellerPayoutDestination.getAmount();
BigInteger actualLoserAmount = numDestinations == 1 ? BigInteger.ZERO : disputeResult.getWinner() == Winner.BUYER ? sellerPayoutDestination.getAmount() : buyerPayoutDestination.getAmount();
if (!expectedWinnerAmount.equals(actualWinnerAmount)) throw new RuntimeException("Unexpected winner payout: " + expectedWinnerAmount + " vs " + actualWinnerAmount);
if (!expectedLoserAmount.equals(actualLoserAmount)) throw new RuntimeException("Unexpected loser payout: " + expectedLoserAmount + " vs " + actualLoserAmount);
// update multisig wallet from arbitrator
multisigWallet.importMultisigHex(Arrays.asList(disputeResult.getArbitratorUpdatedMultisigHex()));
// sign arbitrator-signed payout tx
MoneroMultisigSignResult result = multisigWallet.signMultisigTxHex(payoutTxHex);
if (result.getSignedMultisigTxHex() == null) throw new RuntimeException("Error signing arbitrator-signed payout tx");
String signedMultisigTxHex = result.getSignedMultisigTxHex();
parsedTxSet.setMultisigTxHex(signedMultisigTxHex);
return parsedTxSet;
}
private void onTraderSignedDisputePayoutTx(String tradeId, MoneroTxSet txSet) {
// gather trade info
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(tradeId);
Optional<Dispute> disputeOptional = findDispute(tradeId);
if (!disputeOptional.isPresent()) {
log.warn("Trader has no dispute when signing dispute payout tx. This should never happen. TradeId = " + tradeId);
@ -481,10 +570,12 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
}
Dispute dispute = disputeOptional.get();
Contract contract = dispute.getContract();
Trade trade = tradeManager.getTradeById(tradeId).get();
Trade trade = tradeManager.getOpenTrade(tradeId).get();
// submit fully signed payout tx to the network
multisigWallet.submitMultisigTxHex(txSet.getMultisigTxHex());
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(tradeId); // closed when trade completed (TradeManager.onTradeCompleted())
List<String> txHashes = multisigWallet.submitMultisigTxHex(txSet.getMultisigTxHex());
txSet.getTxs().get(0).setHash(txHashes.get(0)); // manually update hash which is known after signed
// update state
trade.setPayoutTx(txSet.getTxs().get(0)); // TODO (woodser): is trade.payoutTx() mutually exclusive from dispute payout tx?
@ -505,7 +596,7 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
NodeAddress peersNodeAddress = dispute.isDisputeOpenerIsBuyer() ? contract.getSellerNodeAddress() : contract.getBuyerNodeAddress();
log.trace("sendPeerPublishedPayoutTxMessage to peerAddress {}", peersNodeAddress);
PeerPublishedDisputePayoutTxMessage message = new PeerPublishedDisputePayoutTxMessage(updatedMultisigHex,
payoutTxHex,
payoutTxHex,
dispute.getTradeId(),
p2PService.getAddress(),
UUID.randomUUID().toString(),
@ -539,7 +630,7 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
private void updateTradeOrOpenOfferManager(String tradeId) {
// set state after payout as we call swapTradeEntryToAvailableEntry
if (tradeManager.getTradeById(tradeId).isPresent()) {
if (tradeManager.getOpenTrade(tradeId).isPresent()) {
tradeManager.closeDisputedTrade(tradeId, Trade.DisputeState.DISPUTE_CLOSED);
} else {
Optional<OpenOffer> openOfferOptional = openOfferManager.getOpenOfferById(tradeId);
@ -622,71 +713,4 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
log.info("Dispute payout transaction generated on attempt {}: {}", numAttempts, payoutTx);
return payoutTx;
}
private MoneroTxSet traderSignsDisputePayoutTx(String tradeId, String payoutTxHex) {
// gather trade info
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(tradeId);
Optional<Dispute> disputeOptional = findDispute(tradeId);
if (!disputeOptional.isPresent()) throw new RuntimeException("Trader has no dispute when signing dispute payout tx. This should never happen. TradeId = " + tradeId);
Dispute dispute = disputeOptional.get();
Contract contract = dispute.getContract();
DisputeResult disputeResult = dispute.getDisputeResultProperty().get();
// Offer offer = checkNotNull(trade.getOffer(), "offer must not be null");
// BigInteger sellerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? trade.getMaker().getDepositTxHash() : trade.getTaker().getDepositTxHash()).getIncomingAmount(); // TODO (woodser): use contract instead of trade to get deposit tx ids when contract has deposit tx ids
// BigInteger buyerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? trade.getTaker().getDepositTxHash() : trade.getMaker().getDepositTxHash()).getIncomingAmount();
// BigInteger tradeAmount = BigInteger.valueOf(contract.getTradeAmount().value).multiply(ParsingUtils.XMR_SATOSHI_MULTIPLIER);
// parse arbitrator-signed payout tx
MoneroTxSet parsedTxSet = multisigWallet.describeTxSet(new MoneroTxSet().setMultisigTxHex(payoutTxHex));
if (parsedTxSet.getTxs() == null || parsedTxSet.getTxs().size() != 1) throw new RuntimeException("Bad arbitrator-signed payout tx"); // TODO (woodser): nack
MoneroTxWallet arbitratorSignedPayoutTx = parsedTxSet.getTxs().get(0);
System.out.println("Parsed arbitrator-signed payout tx:\n" + arbitratorSignedPayoutTx);
// verify payout tx has 1 or 2 destinations
int numDestinations = arbitratorSignedPayoutTx.getOutgoingTransfer() == null || arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations() == null ? 0 : arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations().size();
if (numDestinations != 1 && numDestinations != 2) throw new RuntimeException("Buyer-signed payout tx does not have 1 or 2 destinations");
// get buyer and seller destinations (order not preserved)
List<MoneroDestination> destinations = arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations();
boolean buyerFirst = destinations.get(0).getAddress().equals(contract.getBuyerPayoutAddressString());
MoneroDestination buyerPayoutDestination = buyerFirst ? destinations.get(0) : numDestinations == 2 ? destinations.get(1) : null;
MoneroDestination sellerPayoutDestination = buyerFirst ? (numDestinations == 2 ? destinations.get(1) : null) : destinations.get(0);
// verify payout addresses
if (buyerPayoutDestination != null && !buyerPayoutDestination.getAddress().equals(contract.getBuyerPayoutAddressString())) throw new RuntimeException("Buyer payout address does not match contract");
if (sellerPayoutDestination != null && !sellerPayoutDestination.getAddress().equals(contract.getSellerPayoutAddressString())) throw new RuntimeException("Seller payout address does not match contract");
// verify change address is multisig's primary address
if (arbitratorSignedPayoutTx.getChangeAddress() != null && !arbitratorSignedPayoutTx.getChangeAddress().equals(multisigWallet.getPrimaryAddress())) throw new RuntimeException("Change address is not multisig wallet's primary address");
// verify sum of outputs = destination amounts + change amount
BigInteger destinationSum = (buyerPayoutDestination == null ? BigInteger.ZERO : buyerPayoutDestination.getAmount()).add(sellerPayoutDestination == null ? BigInteger.ZERO : sellerPayoutDestination.getAmount());
if (!arbitratorSignedPayoutTx.getOutputSum().equals(destinationSum.add(arbitratorSignedPayoutTx.getChangeAmount()))) throw new RuntimeException("Sum of outputs != destination amounts + change amount");
// TODO (woodser): verify fee is reasonable (e.g. within 2x of fee estimate tx)
// verify winner and loser payout amounts
BigInteger txCost = arbitratorSignedPayoutTx.getFee().add(arbitratorSignedPayoutTx.getChangeAmount()); // fee + lost dust change
BigInteger expectedWinnerAmount = ParsingUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getBuyerPayoutAmount() : disputeResult.getSellerPayoutAmount());
BigInteger expectedLoserAmount = ParsingUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getSellerPayoutAmount() : disputeResult.getBuyerPayoutAmount());
if (expectedLoserAmount.equals(BigInteger.ZERO)) expectedWinnerAmount = expectedWinnerAmount.subtract(txCost); // winner only pays tx cost if loser gets 0
else expectedLoserAmount = expectedLoserAmount.subtract(txCost); // loser pays tx cost
BigInteger actualWinnerAmount = disputeResult.getWinner() == Winner.BUYER ? buyerPayoutDestination.getAmount() : sellerPayoutDestination.getAmount();
BigInteger actualLoserAmount = numDestinations == 1 ? BigInteger.ZERO : disputeResult.getWinner() == Winner.BUYER ? sellerPayoutDestination.getAmount() : buyerPayoutDestination.getAmount();
if (!expectedWinnerAmount.equals(actualWinnerAmount)) throw new RuntimeException("Unexpected winner payout: " + expectedWinnerAmount + " vs " + actualWinnerAmount);
if (!expectedLoserAmount.equals(actualLoserAmount)) throw new RuntimeException("Unexpected loser payout: " + expectedLoserAmount + " vs " + actualLoserAmount);
// update multisig wallet from arbitrator
System.out.println("Updating multisig hex from arbitrator");
multisigWallet.importMultisigHex(Arrays.asList(disputeResult.getArbitratorUpdatedMultisigHex()));
// sign arbitrator-signed payout tx
MoneroMultisigSignResult result = multisigWallet.signMultisigTxHex(payoutTxHex);
if (result.getSignedMultisigTxHex() == null) throw new RuntimeException("Error signing arbitrator-signed payout tx");
String signedMultisigTxHex = result.getSignedMultisigTxHex();
parsedTxSet.setMultisigTxHex(signedMultisigTxHex);
return parsedTxSet;
}
}

4
core/src/main/java/bisq/core/support/dispute/mediation/MediationManager.java
View File

@ -134,7 +134,7 @@ public final class MediationManager extends DisputeManager<MediationDisputeList>
@Override
public void cleanupDisputes() {
disputeListService.cleanupDisputes(tradeId -> {
tradeManager.getTradeById(tradeId).filter(trade -> trade.getPayoutTx() != null)
tradeManager.getOpenTrade(tradeId).filter(trade -> trade.getPayoutTx() != null)
.ifPresent(trade -> {
tradeManager.closeDisputedTrade(tradeId, Trade.DisputeState.MEDIATION_CLOSED);
});
@ -197,7 +197,7 @@ public final class MediationManager extends DisputeManager<MediationDisputeList>
dispute.setDisputeResult(disputeResult);
Optional<Trade> tradeOptional = tradeManager.getTradeById(tradeId);
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(tradeId);
if (tradeOptional.isPresent()) {
Trade trade = tradeOptional.get();
if (trade.getDisputeState() == Trade.DisputeState.MEDIATION_REQUESTED ||

4
core/src/main/java/bisq/core/support/dispute/refund/RefundManager.java
View File

@ -200,7 +200,7 @@ public final class RefundManager extends DisputeManager<RefundDisputeList> {
dispute.setDisputeResult(disputeResult);
Optional<Trade> tradeOptional = tradeManager.getTradeById(tradeId);
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(tradeId);
if (tradeOptional.isPresent()) {
Trade trade = tradeOptional.get();
if (trade.getDisputeState() == Trade.DisputeState.REFUND_REQUESTED ||
@ -215,7 +215,7 @@ public final class RefundManager extends DisputeManager<RefundDisputeList> {
sendAckMessage(chatMessage, dispute.getAgentPubKeyRing(), true, null);
// set state after payout as we call swapTradeEntryToAvailableEntry
if (tradeManager.getTradeById(tradeId).isPresent()) {
if (tradeManager.getOpenTrade(tradeId).isPresent()) {
tradeManager.closeDisputedTrade(tradeId, Trade.DisputeState.REFUND_REQUEST_CLOSED);
} else {
Optional<OpenOffer> openOfferOptional = openOfferManager.getOpenOfferById(tradeId);

8
core/src/main/java/bisq/core/support/traderchat/TraderChatManager.java
View File

@ -83,7 +83,7 @@ public class TraderChatManager extends SupportManager {
@Override
public NodeAddress getPeerNodeAddress(ChatMessage message) {
return tradeManager.getTradeById(message.getTradeId()).map(trade -> {
return tradeManager.getOpenTrade(message.getTradeId()).map(trade -> {
if (trade.getContract() != null) {
return trade.getContract().getPeersNodeAddress(pubKeyRingProvider.get());
} else {
@ -94,7 +94,7 @@ public class TraderChatManager extends SupportManager {
@Override
public PubKeyRing getPeerPubKeyRing(ChatMessage message) {
return tradeManager.getTradeById(message.getTradeId()).map(trade -> {
return tradeManager.getOpenTrade(message.getTradeId()).map(trade -> {
if (trade.getContract() != null) {
return trade.getContract().getPeersPubKeyRing(pubKeyRingProvider.get());
} else {
@ -112,12 +112,12 @@ public class TraderChatManager extends SupportManager {
@Override
public boolean channelOpen(ChatMessage message) {
return tradeManager.getTradeById(message.getTradeId()).isPresent();
return tradeManager.getOpenTrade(message.getTradeId()).isPresent();
}
@Override
public void addAndPersistChatMessage(ChatMessage message) {
tradeManager.getTradeById(message.getTradeId()).ifPresent(trade -> {
tradeManager.getOpenTrade(message.getTradeId()).ifPresent(trade -> {
ObservableList<ChatMessage> chatMessages = trade.getChatMessages();
if (chatMessages.stream().noneMatch(m -> m.getUid().equals(message.getUid()))) {
if (chatMessages.isEmpty()) {

10
core/src/main/java/bisq/core/trade/TradableList.java
View File

@ -54,10 +54,12 @@ public final class TradableList<T extends Tradable> extends PersistableListAsObs
@Override
public Message toProtoMessage() {
return protobuf.PersistableEnvelope.newBuilder()
.setTradableList(protobuf.TradableList.newBuilder()
.addAllTradable(ProtoUtil.collectionToProto(getList(), protobuf.Tradable.class)))
.build();
synchronized (getList()) {
return protobuf.PersistableEnvelope.newBuilder()
.setTradableList(protobuf.TradableList.newBuilder()
.addAllTradable(ProtoUtil.collectionToProto(getList(), protobuf.Tradable.class)))
.build();
}
}
public static TradableList<Tradable> fromProto(protobuf.TradableList proto,

142
core/src/main/java/bisq/core/trade/Trade.java
View File

@ -63,6 +63,7 @@ import javafx.collections.FXCollections;
import javafx.collections.ObservableList;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Date;
import java.util.List;
import java.util.Optional;
@ -82,8 +83,8 @@ import static com.google.common.base.Preconditions.checkNotNull;
import monero.common.MoneroError;
import monero.daemon.MoneroDaemon;
import monero.daemon.model.MoneroTx;
import monero.wallet.MoneroWallet;
import monero.wallet.model.MoneroOutputWallet;
import monero.wallet.model.MoneroTxWallet;
import monero.wallet.model.MoneroWalletListener;
@ -99,9 +100,11 @@ public abstract class Trade implements Tradable, Model {
///////////////////////////////////////////////////////////////////////////////////////////
public enum State {
// #################### Phase PREPARATION
// #################### Phase INIT
// When trade protocol starts no funds are on stake
PREPARATION(Phase.INIT),
CONTRACT_SIGNATURE_REQUESTED(Phase.INIT), // TODO (woodser): add more states for initializing multisig, etc to support trade initialization notifications
CONTRACT_SIGNED(Phase.INIT),
// At first part maker/taker have different roles
// taker perspective
@ -206,9 +209,9 @@ public abstract class Trade implements Tradable, Model {
public enum Phase {
INIT,
TAKER_FEE_PUBLISHED,
TAKER_FEE_PUBLISHED, // TODO (woodser): remove unused phases
DEPOSIT_PUBLISHED,
DEPOSIT_CONFIRMED,
DEPOSIT_CONFIRMED, // TODO (woodser): rename to or add DEPOSIT_UNLOCKED
FIAT_SENT,
FIAT_RECEIVED,
PAYOUT_PUBLISHED,
@ -463,8 +466,8 @@ public abstract class Trade implements Tradable, Model {
transient MoneroWalletListener depositTxListener;
transient Boolean makerDepositLocked; // null when unknown, true while locked, false when unlocked
transient Boolean takerDepositLocked;
transient private MoneroTxWallet makerDepositTx;
transient private MoneroTxWallet takerDepositTx;
transient private MoneroTx makerDepositTx;
transient private MoneroTx takerDepositTx;
///////////////////////////////////////////////////////////////////////////////////////////
// Constructor, initialization
@ -696,72 +699,101 @@ public abstract class Trade implements Tradable, Model {
else throw new RuntimeException("Unknown trade type: " + this.getClass().getName());
}
// The deserialized tx has not actual confidence data, so we need to get the fresh one from the wallet.
void updateDepositTxFromWallet() {
if (getMakerDepositTx() != null && getTakerDepositTx() != null) {
MoneroWallet multisigWallet = processModel.getProvider().getXmrWalletService().getMultisigWallet(getId());
applyDepositTxs(multisigWallet.getTx(getMakerDepositTx().getHash()), multisigWallet.getTx(getTakerDepositTx().getHash()));
}
}
/**
* Listen for deposit transactions to unlock and then apply the transactions.
*
* TODO: adopt for general purpose scheduling
* TODO: check and notify if deposits are dropped due to re-org
*/
public void listenForDepositTxs() {
log.info("Listening for deposit txs to unlock for trade {}", getId());
public void applyDepositTxs(MoneroTxWallet makerDepositTx, MoneroTxWallet takerDepositTx) {
this.makerDepositTx = makerDepositTx;
this.takerDepositTx = takerDepositTx;
if (!makerDepositTx.isLocked() && !takerDepositTx.isLocked()) {
setConfirmedState(); // TODO (woodser): bisq "confirmed" = xmr unlocked after 10 confirmations
}
}
public void setupDepositTxsListener() {
// ignore if already listening
if (depositTxListener != null) {
log.warn("Trade {} already listening for deposit txs", getId());
return;
}
// create listener for deposit transactions
MoneroWallet multisigWallet = processModel.getXmrWalletService().getMultisigWallet(getId());
depositTxListener = processModel.getXmrWalletService().new HavenoWalletListener(new MoneroWalletListener() { // TODO (woodser): separate into own class file
@Override
public void onOutputReceived(MoneroOutputWallet output) {
// get daemon and primary wallet
MoneroDaemon daemon = processModel.getXmrWalletService().getDaemon();
MoneroWallet havenoWallet = processModel.getXmrWalletService().getWallet();
// fetch deposit txs from daemon
List<MoneroTx> txs = daemon.getTxs(Arrays.asList(processModel.getMaker().getDepositTxHash(), processModel.getTaker().getDepositTxHash()), true);
// handle deposit txs seen
if (txs.size() == 2) {
// update state
setState(this instanceof MakerTrade ? Trade.State.MAKER_SAW_DEPOSIT_TX_IN_NETWORK : Trade.State.TAKER_SAW_DEPOSIT_TX_IN_NETWORK);
boolean makerFirst = txs.get(0).getHash().equals(processModel.getMaker().getDepositTxHash());
makerDepositTx = makerFirst ? txs.get(0) : txs.get(1);
takerDepositTx = makerFirst ? txs.get(1) : txs.get(0);
// check if deposit txs unlocked
if (txs.get(0).isConfirmed() && txs.get(1).isConfirmed()) {
long unlockHeight = Math.max(txs.get(0).getHeight(), txs.get(0).getHeight()) + 9;
if (havenoWallet.getHeight() >= unlockHeight) {
setConfirmedState();
return;
}
}
}
// create block listener
depositTxListener = processModel.getXmrWalletService().new HavenoWalletListener(new MoneroWalletListener() { // TODO (woodser): separate into own class file
Long unlockHeight = null;
@Override
public void onNewBlock(long height) {
// ignore if no longer listening
if (depositTxListener == null) return;
// TODO (woodser): remove this
if (output.getTx().isConfirmed() && output.getTx().isLocked() && (processModel.getMaker().getDepositTxHash().equals(output.getTx().getHash()) || processModel.getTaker().getDepositTxHash().equals(output.getTx().getHash()))) {
System.out.println("Deposit output for tx " + output.getTx().getHash() + " is confirmed at height " + output.getTx().getHeight());
}
// update locked state
if (output.getTx().getHash().equals(processModel.getMaker().getDepositTxHash())) makerDepositLocked = output.getTx().isLocked();
else if (output.getTx().getHash().equals(processModel.getTaker().getDepositTxHash())) takerDepositLocked = output.getTx().isLocked();
// deposit txs seen when both locked states seen
if (makerDepositLocked != null && takerDepositLocked != null) {
// ignore if before unlock height
if (unlockHeight != null && height < unlockHeight) return;
// fetch txs from daemon
List<MoneroTx> txs = daemon.getTxs(Arrays.asList(processModel.getMaker().getDepositTxHash(), processModel.getTaker().getDepositTxHash()), true);
// ignore if deposit txs not seen
if (txs.size() != 2) return;
// update deposit txs
boolean makerFirst = txs.get(0).getHash().equals(processModel.getMaker().getDepositTxHash());
makerDepositTx = makerFirst ? txs.get(0) : txs.get(1);
takerDepositTx = makerFirst ? txs.get(1) : txs.get(0);
// update state when deposit txs seen
if (txs.size() == 2) {
setState(this instanceof MakerTrade ? Trade.State.MAKER_SAW_DEPOSIT_TX_IN_NETWORK : Trade.State.TAKER_SAW_DEPOSIT_TX_IN_NETWORK);
}
// confirm trade and update ui when both deposits unlock
if (Boolean.FALSE.equals(makerDepositLocked) && Boolean.FALSE.equals(takerDepositLocked)) {
System.out.println("Multisig deposit txs unlocked!");
applyDepositTxs(multisigWallet.getTx(processModel.getMaker().getDepositTxHash()), multisigWallet.getTx(processModel.getTaker().getDepositTxHash()));
multisigWallet.removeListener(depositTxListener); // remove listener when notified
// compute unlock height
if (unlockHeight == null && txs.size() == 2 && txs.get(0).isConfirmed() && txs.get(1).isConfirmed()) {
unlockHeight = Math.max(txs.get(0).getHeight(), txs.get(0).getHeight()) + 9;
}
// check if txs unlocked
if (unlockHeight != null && height == unlockHeight) {
log.info("Multisig deposits unlocked for trade {}", getId());
setConfirmedState(); // TODO (woodser): bisq "confirmed" = xmr unlocked after 10 confirmations
havenoWallet.removeListener(depositTxListener); // remove listener when notified
depositTxListener = null; // prevent re-applying trade state in subsequent requests
}
}
});
// register wallet listener
multisigWallet.addListener(depositTxListener);
havenoWallet.addListener(depositTxListener);
}
@Nullable
public MoneroTxWallet getTakerDepositTx() {
public MoneroTx getTakerDepositTx() {
String depositTxHash = getProcessModel().getTaker().getDepositTxHash();
try {
if (takerDepositTx == null) takerDepositTx = depositTxHash == null ? null : xmrWalletService.getMultisigWallet(getId()).getTx(depositTxHash);
if (takerDepositTx == null) takerDepositTx = depositTxHash == null ? null : getXmrWalletService().getDaemon().getTx(depositTxHash);
return takerDepositTx;
} catch (MoneroError e) {
log.error("Wallet is missing taker deposit tx " + depositTxHash);
@ -770,10 +802,10 @@ public abstract class Trade implements Tradable, Model {
}
@Nullable
public MoneroTxWallet getMakerDepositTx() {
public MoneroTx getMakerDepositTx() {
String depositTxHash = getProcessModel().getMaker().getDepositTxHash();
try {
if (makerDepositTx == null) makerDepositTx = depositTxHash == null ? null : xmrWalletService.getMultisigWallet(getId()).getTx(depositTxHash);
if (makerDepositTx == null) makerDepositTx = depositTxHash == null ? null : getXmrWalletService().getDaemon().getTx(depositTxHash);
return makerDepositTx;
} catch (MoneroError e) {
log.error("Wallet is missing maker deposit tx " + depositTxHash);
@ -1047,10 +1079,10 @@ public abstract class Trade implements Tradable, Model {
private long getTradeStartTime() {
long now = System.currentTimeMillis();
long startTime;
final MoneroTxWallet takerDepositTx = getTakerDepositTx();
final MoneroTxWallet makerDepositTx = getMakerDepositTx();
final MoneroTx takerDepositTx = getTakerDepositTx();
final MoneroTx makerDepositTx = getMakerDepositTx();
if (makerDepositTx != null && takerDepositTx != null && getTakeOfferDate() != null) {
if (!makerDepositTx.isLocked() && !takerDepositTx.isLocked()) {
if (isDepositConfirmed()) {
final long tradeTime = getTakeOfferDate().getTime();
long maxHeight = Math.max(makerDepositTx.getHeight(), takerDepositTx.getHeight());
MoneroDaemon daemonRpc = xmrWalletService.getDaemon();

110
core/src/main/java/bisq/core/trade/TradeManager.java
View File

@ -118,7 +118,7 @@ import javax.annotation.Nullable;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import monero.wallet.model.MoneroTxWallet;
import monero.daemon.model.MoneroTx;
public class TradeManager implements PersistedDataHost, DecryptedDirectMessageListener {
@ -346,7 +346,6 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
private void initPersistedTrade(Trade trade) {
initTradeAndProtocol(trade, getTradeProtocol(trade));
trade.updateDepositTxFromWallet(); // TODO (woodser): this re-opens all multisig wallets. only open active wallets
requestPersistence();
}
@ -405,7 +404,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
}
Trade trade;
Optional<Trade> tradeOptional = getTradeById(offer.getId());
Optional<Trade> tradeOptional = getOpenTrade(offer.getId());
if (tradeOptional.isPresent()) {
trade = tradeOptional.get();
@ -446,11 +445,13 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
}
initTradeAndProtocol(trade, getTradeProtocol(trade));
tradableList.add(trade);
synchronized (tradableList) {
tradableList.add(trade);
}
}
((ArbitratorProtocol) getTradeProtocol(trade)).handleInitTradeRequest(request, sender, errorMessage -> {
log.warn("Arbitrator error during trade initialization: " + errorMessage);
log.warn("Arbitrator error during trade initialization for trade {}: {}", trade.getId(), errorMessage);
removeTrade(trade);
});
@ -514,8 +515,10 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
trade.getSelf().setReserveTxHex(openOffer.getReserveTxHex());
trade.getSelf().setReserveTxKey(openOffer.getReserveTxKey());
trade.getSelf().setReserveTxKeyImages(offer.getOfferPayload().getReserveTxKeyImages());
tradableList.add(trade);
synchronized (tradableList) {
tradableList.add(trade);
}
// notify on phase changes
// TODO (woodser): save subscription, bind on startup
EasyBind.subscribe(trade.statePhaseProperty(), phase -> {
@ -545,7 +548,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + request.getTradeId());
return;
@ -564,7 +567,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + request.getTradeId());
return;
@ -583,7 +586,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + request.getTradeId());
return;
@ -602,7 +605,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + request.getTradeId());
return;
@ -621,7 +624,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(response.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(response.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + response.getTradeId());
return;
@ -640,7 +643,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + request.getTradeId());
return;
@ -659,7 +662,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) throw new RuntimeException("No trade with id " + request.getTradeId()); // TODO (woodser): error handling
Trade trade = tradeOptional.get();
getTradeProtocol(trade).handleUpdateMultisigRequest(request, peer, errorMessage -> {
@ -737,7 +740,9 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
if (prev != null) {
log.error("We had already an entry with uid {}", trade.getUid());
}
tradableList.add(trade);
synchronized (tradableList) {
tradableList.add(trade);
}
initTradeAndProtocol(trade, tradeProtocol);
@ -753,7 +758,10 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
requestPersistence();
}
},
errorMessageHandler);
errorMessage -> {
log.warn("Taker error during check offer availability: " + errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
});
requestPersistence();
}
@ -797,8 +805,8 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
// If trade was completed (closed without fault but might be closed by a dispute) we move it to the closed trades
public void onTradeCompleted(Trade trade) {
removeTrade(trade);
closedTradableManager.add(trade);
removeTrade(trade);
// TODO The address entry should have been removed already. Check and if its the case remove that.
xmrWalletService.resetAddressEntriesForPendingTrade(trade.getId());
@ -811,7 +819,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
///////////////////////////////////////////////////////////////////////////////////////////
public void closeDisputedTrade(String tradeId, Trade.DisputeState disputeState) {
Optional<Trade> tradeOptional = getTradeById(tradeId);
Optional<Trade> tradeOptional = getOpenTrade(tradeId);
if (tradeOptional.isPresent()) {
Trade trade = tradeOptional.get();
trade.setDisputeState(disputeState);
@ -897,9 +905,9 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
.collect(Collectors.toSet()));
tradesIdSet.addAll(closedTradableManager.getTradesStreamWithFundsLockedIn()
.map(trade -> {
MoneroTxWallet makerDepositTx = trade.getMakerDepositTx();
MoneroTx makerDepositTx = trade.getMakerDepositTx();
if (makerDepositTx != null) {
if (makerDepositTx.isLocked()) {
if (!makerDepositTx.isConfirmed()) {
tradeTxException.set(new TradeTxException(Res.get("error.closedTradeWithUnconfirmedDepositTx", trade.getShortId()))); // TODO (woodser): rename to closedTradeWithLockedDepositTx
} else {
log.warn("We found a closed trade with locked up funds. " +
@ -909,7 +917,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
tradeTxException.set(new TradeTxException(Res.get("error.closedTradeWithNoDepositTx", trade.getShortId())));
}
MoneroTxWallet takerDepositTx = trade.getTakerDepositTx();
MoneroTx takerDepositTx = trade.getTakerDepositTx();
if (takerDepositTx != null) {
if (!takerDepositTx.isConfirmed()) {
tradeTxException.set(new TradeTxException(Res.get("error.closedTradeWithUnconfirmedDepositTx", trade.getShortId())));
@ -940,9 +948,12 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
initPersistedTrade(trade);
if (!tradableList.contains(trade)) {
tradableList.add(trade);
synchronized (tradableList) {
if (!tradableList.contains(trade)) {
tradableList.add(trade);
}
}
return true;
}
@ -967,7 +978,9 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
///////////////////////////////////////////////////////////////////////////////////////////
public ObservableList<Trade> getObservableList() {
return tradableList.getObservableList();
synchronized (tradableList) {
return tradableList.getObservableList();
}
}
public BooleanProperty persistedTradesInitializedProperty() {
@ -979,7 +992,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
}
public boolean wasOfferAlreadyUsedInTrade(String offerId) {
return getTradeById(offerId).isPresent() ||
return getOpenTrade(offerId).isPresent() ||
failedTradesManager.getTradeById(offerId).isPresent() ||
closedTradableManager.getTradableById(offerId).isPresent();
}
@ -991,37 +1004,58 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
else
return offer.getDirection() == OfferPayload.Direction.SELL;
}
// TODO (woodser): make Optional<Trade> versus Trade return types consistent
public Trade getTrade(String tradeId) {
return getOpenTrade(tradeId).orElseGet(() -> getClosedTrade(tradeId).orElseGet(() -> null));
}
public Optional<Trade> getTradeById(String tradeId) {
public Optional<Trade> getOpenTrade(String tradeId) {
return tradableList.stream().filter(e -> e.getId().equals(tradeId)).findFirst();
}
public List<Trade> getTrades() {
public List<Trade> getOpenTrades() {
return ImmutableList.copyOf(getObservableList().stream()
.filter(e -> e instanceof Trade)
.map(e -> e)
.collect(Collectors.toList()));
}
public Optional<Trade> getClosedTrade(String tradeId) {
return closedTradableManager.getClosedTrades().stream().filter(e -> e.getId().equals(tradeId)).findFirst();
}
private void removeTrade(Trade trade) {
if (tradableList.remove(trade)) {
log.info("TradeManager.removeTrade()");
synchronized(tradableList) {
if (!tradableList.contains(trade)) return;
// unreserve taker trade key images
if (trade instanceof TakerTrade && trade.getSelf().getReserveTxKeyImages() != null) {
for (String keyImage : trade.getSelf().getReserveTxKeyImages()) {
xmrWalletService.getWallet().thawOutput(keyImage);
synchronized (trade) {
// unreserve trade key images
if (trade instanceof TakerTrade && trade.getSelf().getReserveTxKeyImages() != null) {
for (String keyImage : trade.getSelf().getReserveTxKeyImages()) {
xmrWalletService.getWallet().thawOutput(keyImage);
}
}
}
p2PService.removeDecryptedDirectMessageListener(getTradeProtocol(trade));
xmrWalletService.deleteMultisigWallet(trade.getId()); // TODO (woodser): don't delete multisig wallet until payout tx unlocked?
requestPersistence();
// delete multisig wallet // TODO (woodser): don't delete multisig wallet until payout tx unlocked
if (xmrWalletService.multisigWalletExists(trade.getId())) xmrWalletService.deleteMultisigWallet(trade.getId());
else log.warn("Multisig wallet to delete for trade {} does not exist", trade.getId());
// unregister and persist
p2PService.removeDecryptedDirectMessageListener(getTradeProtocol(trade));
tradableList.remove(trade);
requestPersistence();
}
}
}
private void addTrade(Trade trade) {
if (tradableList.add(trade)) {
requestPersistence();
synchronized(tradableList) {
if (tradableList.add(trade)) {
requestPersistence();
}
}
}

20
core/src/main/java/bisq/core/trade/TradeUtils.java
View File

@ -137,9 +137,9 @@ public class TradeUtils {
}
/**
* Create a transaction to reserve a trade. The deposit amount is returned
* to the sender's payout address. Additional funds are reserved to allow
* fluctuations in the mining fee.
* Create a transaction to reserve a trade and freeze its funds. The deposit
* amount is returned to the sender's payout address. Additional funds are
* reserved to allow fluctuations in the mining fee.
*
* @param xmrWalletService
* @param offerId
@ -147,8 +147,8 @@ public class TradeUtils {
* @param depositAmount
* @return a transaction to reserve a trade
*/
public static MoneroTxWallet createReserveTx(XmrWalletService xmrWalletService, String offerId, BigInteger tradeFee, String returnAddress, BigInteger depositAmount) {
public static MoneroTxWallet reserveTradeFunds(XmrWalletService xmrWalletService, String offerId, BigInteger tradeFee, String returnAddress, BigInteger depositAmount) {
// get expected mining fee
MoneroWallet wallet = xmrWalletService.getWallet();
MoneroTxWallet miningFeeTx = wallet.createTx(new MoneroTxConfig()
@ -156,13 +156,18 @@ public class TradeUtils {
.addDestination(TradeUtils.FEE_ADDRESS, tradeFee)
.addDestination(returnAddress, depositAmount));
BigInteger miningFee = miningFeeTx.getFee();
// create reserve tx
MoneroTxWallet reserveTx = wallet.createTx(new MoneroTxConfig()
.setAccountIndex(0)
.addDestination(TradeUtils.FEE_ADDRESS, tradeFee)
.addDestination(returnAddress, depositAmount.add(miningFee.multiply(BigInteger.valueOf(3l))))); // add thrice the mining fee // TODO (woodser): really require more funds on top of security deposit?
// freeze trade funds
for (MoneroOutput input : reserveTx.getInputs()) {
wallet.freezeOutput(input.getKeyImage().getHex());
}
return reserveTx;
}
@ -222,6 +227,9 @@ public class TradeUtils {
if (!txKeyImages.equals(new HashSet<String>(keyImages))) throw new Error("Reserve tx's inputs do not match claimed key images");
}
// verify the unlock height
if (tx.getUnlockHeight() != 0) throw new RuntimeException("Unlock height must be 0");
// verify trade fee
String feeAddress = TradeUtils.FEE_ADDRESS;
MoneroCheckTx check = wallet.checkTxKey(txHash, txKey, feeAddress);

176
core/src/main/java/bisq/core/trade/protocol/ArbitratorProtocol.java
View File

@ -8,14 +8,14 @@ import bisq.core.trade.messages.InitTradeRequest;
import bisq.core.trade.messages.SignContractRequest;
import bisq.core.trade.protocol.tasks.ApplyFilter;
import bisq.core.trade.protocol.tasks.ArbitratorSendsInitTradeAndMultisigRequests;
import bisq.core.trade.protocol.tasks.ProcessDepositRequest;
import bisq.core.trade.protocol.tasks.ArbitratorProcessesDepositRequest;
import bisq.core.trade.protocol.tasks.ProcessInitMultisigRequest;
import bisq.core.trade.protocol.tasks.ArbitratorProcessesReserveTx;
import bisq.core.trade.protocol.tasks.ProcessInitTradeRequest;
import bisq.core.trade.protocol.tasks.ProcessSignContractRequest;
import bisq.core.util.Validator;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import lombok.extern.slf4j.Slf4j;
@ -34,94 +34,118 @@ public class ArbitratorProtocol extends DisputeProtocol {
public void handleInitTradeRequest(InitTradeRequest message,
NodeAddress peer,
ErrorMessageHandler errorMessageHandler) {
this.errorMessageHandler = errorMessageHandler;
processModel.setTradeMessage(message); // TODO (woodser): confirm these are null without being set
//processModel.setTempTradingPeerNodeAddress(peer);
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ApplyFilter.class,
ProcessInitTradeRequest.class,
ArbitratorProcessesReserveTx.class,
ArbitratorSendsInitTradeAndMultisigRequests.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
synchronized (trade) {
this.errorMessageHandler = errorMessageHandler;
processModel.setTradeMessage(message); // TODO (woodser): confirm these are null without being set
CountDownLatch latch = new CountDownLatch(1);
//processModel.setTempTradingPeerNodeAddress(peer);
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ApplyFilter.class,
ProcessInitTradeRequest.class,
ArbitratorProcessesReserveTx.class,
ArbitratorSendsInitTradeAndMultisigRequests.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println("ArbitratorProtocol.handleInitMultisigRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractRequest(SignContractRequest message, NodeAddress sender) {
System.out.println("ArbitratorProtocol.handleSignContractRequest()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message); // TODO (woodser): synchronize access since concurrent requests processed
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message); // TODO (woodser): synchronize access since concurrent requests processed
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
public void handleDepositRequest(DepositRequest request, NodeAddress sender) {
System.out.println("ArbitratorProtocol.handleDepositRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessDepositRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ArbitratorProcessesDepositRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
///////////////////////////////////////////////////////////////////////////////////////////

285
core/src/main/java/bisq/core/trade/protocol/BuyerAsMakerProtocol.java
View File

@ -19,6 +19,7 @@ package bisq.core.trade.protocol;
import bisq.core.trade.BuyerAsMakerTrade;
import bisq.core.trade.Trade;
import bisq.core.trade.Trade.State;
import bisq.core.trade.messages.DelayedPayoutTxSignatureRequest;
import bisq.core.trade.messages.DepositResponse;
import bisq.core.trade.messages.DepositTxAndDelayedPayoutTxMessage;
@ -47,11 +48,12 @@ import bisq.core.trade.protocol.tasks.maker.MakerVerifyTakerFeePayment;
import bisq.core.util.Validator;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
import lombok.extern.slf4j.Slf4j;
import org.fxmisc.easybind.EasyBind;
@Slf4j
public class BuyerAsMakerProtocol extends BuyerProtocol implements MakerProtocol {
@ -74,142 +76,191 @@ public class BuyerAsMakerProtocol extends BuyerProtocol implements MakerProtocol
public void handleInitTradeRequest(InitTradeRequest message,
NodeAddress peer,
ErrorMessageHandler errorMessageHandler) {
this.errorMessageHandler = errorMessageHandler;
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ProcessInitTradeRequest.class,
//ApplyFilter.class, // TODO (woodser): these checks apply when maker signs availability request, but not here
//VerifyPeersAccountAgeWitness.class, // TODO (woodser): these checks apply after in multisig, means if rejected need to reimburse other's fee
MakerSendsInitTradeRequestIfUnreserved.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleInitTradeRequest()");
synchronized (trade) {
this.errorMessageHandler = errorMessageHandler;
CountDownLatch latch = new CountDownLatch(1);
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ProcessInitTradeRequest.class,
//ApplyFilter.class, // TODO (woodser): these checks apply when maker signs availability request, but not here
//VerifyPeersAccountAgeWitness.class, // TODO (woodser): these checks apply after in multisig, means if rejected need to reimburse other's fee
MakerSendsInitTradeRequestIfUnreserved.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(peer, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleInitMultisigRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request); // TODO (woodser): synchronize access since concurrent requests processed
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleInitMultisigRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractRequest(SignContractRequest message, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleSignContractRequest()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractResponse(SignContractResponse message, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleSignContractResponse()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message); // TODO (woodser): synchronize access since concurrent requests processed
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
if (trade.getState() == State.CONTRACT_SIGNATURE_REQUESTED) {
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.CONTRACT_SIGNATURE_REQUESTED) handleSignContractResponse(message, sender);
});
}
}
}
@Override
public void handleDepositResponse(DepositResponse response, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleDepositResponse()");
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(response)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, response, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleDepositResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(response)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, response, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handlePaymentAccountPayloadRequest(PaymentAccountPayloadRequest request, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handlePaymentAccountPayloadRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class,
MakerRemovesOpenOffer.class)
.using(new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handlePaymentAccountPayloadRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
if (trade.getState() == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) {
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG)
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class,
MakerRemovesOpenOffer.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) handlePaymentAccountPayloadRequest(request, sender);
});
}
}
}
///////////////////////////////////////////////////////////////////////////////////////////

307
core/src/main/java/bisq/core/trade/protocol/BuyerAsTakerProtocol.java
View File

@ -21,6 +21,7 @@ package bisq.core.trade.protocol;
import bisq.core.offer.Offer;
import bisq.core.trade.BuyerAsTakerTrade;
import bisq.core.trade.Trade;
import bisq.core.trade.Trade.State;
import bisq.core.trade.handlers.TradeResultHandler;
import bisq.core.trade.messages.DelayedPayoutTxSignatureRequest;
import bisq.core.trade.messages.DepositResponse;
@ -32,6 +33,7 @@ import bisq.core.trade.messages.PayoutTxPublishedMessage;
import bisq.core.trade.messages.SignContractRequest;
import bisq.core.trade.messages.SignContractResponse;
import bisq.core.trade.messages.TradeMessage;
import bisq.core.trade.protocol.TakerProtocol.TakerEvent;
import bisq.core.trade.protocol.tasks.ApplyFilter;
import bisq.core.trade.protocol.tasks.ProcessDepositResponse;
import bisq.core.trade.protocol.tasks.ProcessInitMultisigRequest;
@ -56,11 +58,12 @@ import bisq.core.trade.protocol.tasks.taker.TakerSendsInitTradeRequestToArbitrat
import bisq.core.trade.protocol.tasks.taker.TakerVerifyMakerFeePayment;
import bisq.core.util.Validator;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
import lombok.extern.slf4j.Slf4j;
import org.fxmisc.easybind.EasyBind;
import static com.google.common.base.Preconditions.checkNotNull;
@ -83,150 +86,198 @@ public class BuyerAsTakerProtocol extends BuyerProtocol implements TakerProtocol
///////////////////////////////////////////////////////////////////////////////////////////
// User interaction: Take offer
///////////////////////////////////////////////////////////////////////////////////////////
// TODO (woodser): this implementation is duplicated with SellerAsTakerProtocol
@Override
public void onTakeOffer(TradeResultHandler tradeResultHandler, ErrorMessageHandler errorMessageHandler) {
System.out.println("onTakeOffer()");
this.tradeResultHandler = tradeResultHandler;
this.errorMessageHandler = errorMessageHandler;
expect(phase(Trade.Phase.INIT)
.with(TakerEvent.TAKE_OFFER)
.from(trade.getTradingPeerNodeAddress()))
.setup(tasks(
ApplyFilter.class,
TakerReservesTradeFunds.class,
TakerSendsInitTradeRequestToArbitrator.class) // TODO (woodser): app hangs if this pipeline fails. use .using() like below
.using(new TradeTaskRunner(trade,
() -> { },
errorMessageHandler))
.withTimeout(30))
.executeTasks();
}
///////////////////////////////////////////////////////////////////////////////////////////
// TakerProtocol
// Take offer
///////////////////////////////////////////////////////////////////////////////////////////
// TODO (woodser): these methods are duplicated with SellerAsTakerProtocol due to single inheritance
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println("BuyerAsTakerProtocol.handleInitMultisigRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
public void onTakeOffer(TradeResultHandler tradeResultHandler,
ErrorMessageHandler errorMessageHandler) {
System.out.println(getClass().getCanonicalName() + ".onTakeOffer()");
synchronized (trade) {
this.tradeResultHandler = tradeResultHandler;
this.errorMessageHandler = errorMessageHandler;
CountDownLatch latch = new CountDownLatch(1);
expect(phase(Trade.Phase.INIT)
.with(TakerEvent.TAKE_OFFER)
.from(trade.getTradingPeerNodeAddress()))
.setup(tasks(
ApplyFilter.class,
TakerReservesTradeFunds.class,
TakerSendsInitTradeRequestToArbitrator.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println(getClass().getCanonicalName() + ".handleInitMultisigRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractRequest(SignContractRequest message, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleSignContractRequest()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractResponse(SignContractResponse message, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleSignContractResponse()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
if (trade.getState() == State.CONTRACT_SIGNATURE_REQUESTED) {
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state != State.CONTRACT_SIGNATURE_REQUESTED) return;
handleSignContractResponse(message, sender);
});
}
}
}
@Override
public void handleDepositResponse(DepositResponse response, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleDepositResponse()");
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(response)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, response, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleDepositResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(response)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, response, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handlePaymentAccountPayloadRequest(PaymentAccountPayloadRequest request, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handlePaymentAccountPayloadRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(sender, request);
tradeResultHandler.handleResult(trade); // trade is initialized
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handlePaymentAccountPayloadRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
CountDownLatch latch = new CountDownLatch(1);
if (trade.getState() == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) {
processModel.setTradeMessage(request);
expect(state(Trade.State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) // TODO (woodser): rename to RECEIVED_DEPOSIT_TX_PUBLISHED_MSG
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
stopTimeout();
handleTaskRunnerSuccess(sender, request);
tradeResultHandler.handleResult(trade); // trade is initialized
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) handlePaymentAccountPayloadRequest(request, sender);
});
}
}
}
///////////////////////////////////////////////////////////////////////////////////////////

87
core/src/main/java/bisq/core/trade/protocol/BuyerProtocol.java
View File

@ -33,7 +33,7 @@ import bisq.core.trade.protocol.tasks.buyer.BuyerSendCounterCurrencyTransferStar
import bisq.core.trade.protocol.tasks.buyer.BuyerSetupPayoutTxListener;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
@ -127,27 +127,31 @@ public abstract class BuyerProtocol extends DisputeProtocol {
///////////////////////////////////////////////////////////////////////////////////////////
public void onPaymentStarted(ResultHandler resultHandler, ErrorMessageHandler errorMessageHandler) {
BuyerEvent event = BuyerEvent.PAYMENT_SENT;
expect(phase(Trade.Phase.DEPOSIT_CONFIRMED)
.with(event)
.preCondition(trade.confirmPermitted()))
.setup(tasks(ApplyFilter.class,
getVerifyPeersFeePaymentClass(),
UpdateMultisigWithTradingPeer.class,
BuyerCreateAndSignPayoutTx.class,
BuyerSetupPayoutTxListener.class,
BuyerSendCounterCurrencyTransferStartedMessage.class)
.using(new TradeTaskRunner(trade,
() -> {
resultHandler.handleResult();
handleTaskRunnerSuccess(event);
},
(errorMessage) -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(event, errorMessage);
})))
.run(() -> trade.setState(Trade.State.BUYER_CONFIRMED_IN_UI_FIAT_PAYMENT_INITIATED))
.executeTasks();
System.out.println("BuyerProtocol.onPaymentStarted()");
synchronized (trade) { // TODO (woodser): UpdateMultisigWithTradingPeer sends UpdateMultisigRequest and waits for UpdateMultisigResponse which is new thread, so synchronized (trade) in subsequent pipeline blocks forever if we hold on with countdown latch in this function
System.out.println("BuyerProtocol.onPaymentStarted() has the lock!!!");
BuyerEvent event = BuyerEvent.PAYMENT_SENT;
expect(phase(Trade.Phase.DEPOSIT_CONFIRMED)
.with(event)
.preCondition(trade.confirmPermitted()))
.setup(tasks(ApplyFilter.class,
getVerifyPeersFeePaymentClass(),
UpdateMultisigWithTradingPeer.class,
BuyerCreateAndSignPayoutTx.class,
BuyerSetupPayoutTxListener.class,
BuyerSendCounterCurrencyTransferStartedMessage.class)
.using(new TradeTaskRunner(trade,
() -> {
resultHandler.handleResult();
handleTaskRunnerSuccess(event);
},
(errorMessage) -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(event, errorMessage);
})))
.run(() -> trade.setState(Trade.State.BUYER_CONFIRMED_IN_UI_FIAT_PAYMENT_INITIATED))
.executeTasks();
}
}
///////////////////////////////////////////////////////////////////////////////////////////
@ -155,22 +159,29 @@ public abstract class BuyerProtocol extends DisputeProtocol {
///////////////////////////////////////////////////////////////////////////////////////////
protected void handle(PayoutTxPublishedMessage message, NodeAddress peer) {
processModel.setTradeMessage(message);
processModel.setTempTradingPeerNodeAddress(peer);
expect(anyPhase(Trade.Phase.FIAT_SENT, Trade.Phase.PAYOUT_PUBLISHED)
.with(message)
.from(peer))
.setup(tasks(
getVerifyPeersFeePaymentClass(),
BuyerProcessPayoutTxPublishedMessage.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
handleTaskRunnerFault(peer, message, errorMessage);
})))
.executeTasks();
log.info("BuyerProtocol.handle(PayoutTxPublishedMessage)");
synchronized (trade) {
processModel.setTradeMessage(message);
processModel.setTempTradingPeerNodeAddress(peer);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.FIAT_SENT, Trade.Phase.PAYOUT_PUBLISHED)
.with(message)
.from(peer))
.setup(tasks(
getVerifyPeersFeePaymentClass(),
BuyerProcessPayoutTxPublishedMessage.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(peer, message, errorMessage);
})))
.executeTasks();
wait(latch);
}
}

40
core/src/main/java/bisq/core/trade/protocol/FluentProtocol.java
View File

@ -91,27 +91,29 @@ public class FluentProtocol {
}
return this;
}
synchronized (tradeProtocol.trade) {
if (setup.getTimeoutSec() > 0) {
tradeProtocol.startTimeout(setup.getTimeoutSec());
}
if (setup.getTimeoutSec() > 0) {
tradeProtocol.startTimeout(setup.getTimeoutSec());
NodeAddress peer = condition.getPeer();
if (peer != null) {
tradeProtocol.processModel.setTempTradingPeerNodeAddress(peer); // TODO (woodser): node has multiple peers (arbitrator and maker or taker), but fluent protocol assumes only one
tradeProtocol.processModel.getTradeManager().requestPersistence();
}
TradeMessage message = condition.getMessage();
if (message != null) {
tradeProtocol.processModel.setTradeMessage(message);
tradeProtocol.processModel.getTradeManager().requestPersistence();
}
TradeTaskRunner taskRunner = setup.getTaskRunner(peer, message, condition.getEvent());
taskRunner.addTasks(setup.getTasks());
taskRunner.run();
return this;
}
NodeAddress peer = condition.getPeer();
if (peer != null) {
tradeProtocol.processModel.setTempTradingPeerNodeAddress(peer); // TODO (woodser): node has multiple peers (arbitrator and maker or taker), but fluent protocol assumes only one
tradeProtocol.processModel.getTradeManager().requestPersistence();
}
TradeMessage message = condition.getMessage();
if (message != null) {
tradeProtocol.processModel.setTradeMessage(message);
tradeProtocol.processModel.getTradeManager().requestPersistence();
}
TradeTaskRunner taskRunner = setup.getTaskRunner(peer, message, condition.getEvent());
taskRunner.addTasks(setup.getTasks());
taskRunner.run();
return this;
}

13
core/src/main/java/bisq/core/trade/protocol/ProcessModel.java
View File

@ -181,14 +181,11 @@ public class ProcessModel implements Model, PersistablePayload {
@Nullable
@Getter
@Setter
private boolean multisigSetupComplete;
private String multisigAddress;
@Nullable
@Getter
@Setter
private boolean makerReadyToFundMultisig; // TODO (woodser): remove
@Getter
@Setter
private boolean multisigDepositInitiated;
private boolean multisigSetupComplete; // TODO (woodser): redundant with multisigAddress existing, remove
@Nullable
transient private MoneroTxWallet buyerSignedPayoutTx; // TODO (woodser): remove
@ -251,9 +248,8 @@ public class ProcessModel implements Model, PersistablePayload {
Optional.ofNullable(backupArbitrator).ifPresent(e -> builder.setBackupArbitrator(backupArbitrator.toProtoMessage()));
Optional.ofNullable(preparedMultisigHex).ifPresent(e -> builder.setPreparedMultisigHex(preparedMultisigHex));
Optional.ofNullable(madeMultisigHex).ifPresent(e -> builder.setMadeMultisigHex(madeMultisigHex));
Optional.ofNullable(multisigAddress).ifPresent(e -> builder.setMultisigAddress(multisigAddress));
Optional.ofNullable(multisigSetupComplete).ifPresent(e -> builder.setMultisigSetupComplete(multisigSetupComplete));
Optional.ofNullable(makerReadyToFundMultisig).ifPresent(e -> builder.setMakerReadyToFundMultisig(makerReadyToFundMultisig));
Optional.ofNullable(multisigDepositInitiated).ifPresent(e -> builder.setMultisigSetupComplete(multisigDepositInitiated));
return builder.build();
}
@ -284,9 +280,8 @@ public class ProcessModel implements Model, PersistablePayload {
processModel.setBackupArbitrator(proto.hasBackupArbitrator() ? NodeAddress.fromProto(proto.getBackupArbitrator()) : null);
processModel.setPreparedMultisigHex(ProtoUtil.stringOrNullFromProto(proto.getPreparedMultisigHex()));
processModel.setMadeMultisigHex(ProtoUtil.stringOrNullFromProto(proto.getMadeMultisigHex()));
processModel.setMultisigAddress(ProtoUtil.stringOrNullFromProto(proto.getMultisigAddress()));
processModel.setMultisigSetupComplete(proto.getMultisigSetupComplete());
processModel.setMakerReadyToFundMultisig(proto.getMakerReadyToFundMultisig());
processModel.setMultisigDepositInitiated(proto.getMultisigDepositInitiated());
String paymentStartedMessageStateString = ProtoUtil.stringOrNullFromProto(proto.getPaymentStartedMessageState());
MessageState paymentStartedMessageState = ProtoUtil.enumFromProto(MessageState.class, paymentStartedMessageStateString);

289
core/src/main/java/bisq/core/trade/protocol/SellerAsMakerProtocol.java
View File

@ -20,6 +20,7 @@ package bisq.core.trade.protocol;
import bisq.core.trade.SellerAsMakerTrade;
import bisq.core.trade.Trade;
import bisq.core.trade.Trade.State;
import bisq.core.trade.messages.CounterCurrencyTransferStartedMessage;
import bisq.core.trade.messages.DepositResponse;
import bisq.core.trade.messages.DepositTxMessage;
@ -47,11 +48,12 @@ import bisq.core.trade.protocol.tasks.seller_as_maker.SellerAsMakerFinalizesDepo
import bisq.core.trade.protocol.tasks.seller_as_maker.SellerAsMakerProcessDepositTxMessage;
import bisq.core.util.Validator;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
import lombok.extern.slf4j.Slf4j;
import org.fxmisc.easybind.EasyBind;
@Slf4j
public class SellerAsMakerProtocol extends SellerProtocol implements MakerProtocol {
@ -74,142 +76,191 @@ public class SellerAsMakerProtocol extends SellerProtocol implements MakerProtoc
public void handleInitTradeRequest(InitTradeRequest message,
NodeAddress peer,
ErrorMessageHandler errorMessageHandler) {
this.errorMessageHandler = errorMessageHandler;
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ProcessInitTradeRequest.class,
//ApplyFilter.class, // TODO (woodser): these checks apply when maker signs availability request, but not here
//VerifyPeersAccountAgeWitness.class, // TODO (woodser): these checks apply after in multisig, means if rejected need to reimburse other's fee
MakerSendsInitTradeRequestIfUnreserved.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleInitTradeRequest()");
synchronized (trade) {
this.errorMessageHandler = errorMessageHandler;
CountDownLatch latch = new CountDownLatch(1);
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ProcessInitTradeRequest.class,
//ApplyFilter.class, // TODO (woodser): these checks apply when maker signs availability request, but not here
//VerifyPeersAccountAgeWitness.class, // TODO (woodser): these checks apply after in multisig, means if rejected need to reimburse other's fee
MakerSendsInitTradeRequestIfUnreserved.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(peer, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleInitMultisigRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request); // TODO (woodser): synchronize access since concurrent requests processed
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleInitMultisigRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractRequest(SignContractRequest message, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleSignContractRequest()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractResponse(SignContractResponse message, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleSignContractResponse()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message); // TODO (woodser): synchronize access since concurrent requests processed
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
if (trade.getState() == State.CONTRACT_SIGNATURE_REQUESTED) {
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.CONTRACT_SIGNATURE_REQUESTED) handleSignContractResponse(message, sender);
});
}
}
}
@Override
public void handleDepositResponse(DepositResponse response, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleDepositResponse()");
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(response)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, response, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleDepositResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(response)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, response, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handlePaymentAccountPayloadRequest(PaymentAccountPayloadRequest request, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handlePaymentAccountPayloadRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class,
MakerRemovesOpenOffer.class)
.using(new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handlePaymentAccountPayloadRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
if (trade.getState() == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) {
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG)
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class,
MakerRemovesOpenOffer.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) handlePaymentAccountPayloadRequest(request, sender);
});
}
}
}
///////////////////////////////////////////////////////////////////////////////////////////

290
core/src/main/java/bisq/core/trade/protocol/SellerAsTakerProtocol.java
View File

@ -21,6 +21,7 @@ package bisq.core.trade.protocol;
import bisq.core.offer.Offer;
import bisq.core.trade.SellerAsTakerTrade;
import bisq.core.trade.Trade;
import bisq.core.trade.Trade.State;
import bisq.core.trade.handlers.TradeResultHandler;
import bisq.core.trade.messages.CounterCurrencyTransferStartedMessage;
import bisq.core.trade.messages.DepositResponse;
@ -51,11 +52,12 @@ import bisq.core.trade.protocol.tasks.taker.TakerVerifyMakerFeePayment;
import bisq.core.util.Validator;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
import lombok.extern.slf4j.Slf4j;
import org.fxmisc.easybind.EasyBind;
import static com.google.common.base.Preconditions.checkNotNull;
@ -76,150 +78,198 @@ public class SellerAsTakerProtocol extends SellerProtocol implements TakerProtoc
///////////////////////////////////////////////////////////////////////////////////////////
// User interaction: Take offer
// Take offer
///////////////////////////////////////////////////////////////////////////////////////////
// TODO (woodser): these methods are duplicated with BuyerAsTakerProtocol due to single inheritance
@Override
public void onTakeOffer(TradeResultHandler tradeResultHandler,
ErrorMessageHandler errorMessageHandler) {
System.out.println("onTakeOffer()");
this.tradeResultHandler = tradeResultHandler;
this.errorMessageHandler = errorMessageHandler;
expect(phase(Trade.Phase.INIT)
.with(TakerEvent.TAKE_OFFER)
.from(trade.getTradingPeerNodeAddress()))
.setup(tasks(
ApplyFilter.class,
TakerReservesTradeFunds.class,
TakerSendsInitTradeRequestToArbitrator.class)
.using(new TradeTaskRunner(trade,
() -> { },
errorMessageHandler))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".onTakeOffer()");
synchronized (trade) {
this.tradeResultHandler = tradeResultHandler;
this.errorMessageHandler = errorMessageHandler;
CountDownLatch latch = new CountDownLatch(1);
expect(phase(Trade.Phase.INIT)
.with(TakerEvent.TAKE_OFFER)
.from(trade.getTradingPeerNodeAddress()))
.setup(tasks(
ApplyFilter.class,
TakerReservesTradeFunds.class,
TakerSendsInitTradeRequestToArbitrator.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
///////////////////////////////////////////////////////////////////////////////////////////
// TakerProtocol
///////////////////////////////////////////////////////////////////////////////////////////
// TODO (woodser): these methods are duplicated with BuyerAsTakerProtocol due to single inheritance
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println("BuyerAsTakerProtocol.handleInitMultisigRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleInitMultisigRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractRequest(SignContractRequest message, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleSignContractRequest()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractResponse(SignContractResponse message, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleSignContractResponse()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
if (trade.getState() == State.CONTRACT_SIGNATURE_REQUESTED) {
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state != State.CONTRACT_SIGNATURE_REQUESTED) return;
handleSignContractResponse(message, sender);
});
}
}
}
@Override
public void handleDepositResponse(DepositResponse response, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleDepositResponse()");
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(response)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, response, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleDepositResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(response)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, response, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handlePaymentAccountPayloadRequest(PaymentAccountPayloadRequest request, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handlePaymentAccountPayloadRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED) // TODO: only deposit_published should be expected
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(sender, request);
tradeResultHandler.handleResult(trade); // trade is initialized
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handlePaymentAccountPayloadRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
CountDownLatch latch = new CountDownLatch(1);
if (trade.getState() == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) {
processModel.setTradeMessage(request);
expect(state(Trade.State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) // TODO (woodser): rename to RECEIVED_DEPOSIT_TX_PUBLISHED_MSG
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
stopTimeout();
handleTaskRunnerSuccess(sender, request);
tradeResultHandler.handleResult(trade); // trade is initialized
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) handlePaymentAccountPayloadRequest(request, sender);
});
}
}
}

93
core/src/main/java/bisq/core/trade/protocol/SellerProtocol.java
View File

@ -30,7 +30,7 @@ import bisq.core.trade.protocol.tasks.seller.SellerSendPayoutTxPublishedMessage;
import bisq.core.trade.protocol.tasks.seller.SellerSignAndPublishPayoutTx;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
@ -77,27 +77,39 @@ public abstract class SellerProtocol extends DisputeProtocol {
///////////////////////////////////////////////////////////////////////////////////////////
protected void handle(CounterCurrencyTransferStartedMessage message, NodeAddress peer) {
log.info("SellerProtocol.handle(CounterCurrencyTransferStartedMessage)");
// We are more tolerant with expected phase and allow also DEPOSIT_PUBLISHED as it can be the case
// that the wallet is still syncing and so the DEPOSIT_CONFIRMED state to yet triggered when we received
// a mailbox message with CounterCurrencyTransferStartedMessage.
// TODO A better fix would be to add a listener for the wallet sync state and process
// the mailbox msg once wallet is ready and trade state set.
expect(anyPhase(Trade.Phase.DEPOSIT_CONFIRMED, Trade.Phase.DEPOSIT_PUBLISHED)
.with(message)
.from(peer)
.preCondition(trade.getPayoutTx() == null,
() -> {
log.warn("We received a CounterCurrencyTransferStartedMessage but we have already created the payout tx " +
"so we ignore the message. This can happen if the ACK message to the peer did not " +
"arrive and the peer repeats sending us the message. We send another ACK msg.");
sendAckMessage(peer, message, true, null);
removeMailboxMessageAfterProcessing(message);
}))
.setup(tasks(
SellerProcessCounterCurrencyTransferStartedMessage.class,
ApplyFilter.class,
getVerifyPeersFeePaymentClass()))
.executeTasks();
synchronized (trade) {
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.DEPOSIT_CONFIRMED, Trade.Phase.DEPOSIT_PUBLISHED)
.with(message)
.from(peer)
.preCondition(trade.getPayoutTx() == null,
() -> {
log.warn("We received a CounterCurrencyTransferStartedMessage but we have already created the payout tx " +
"so we ignore the message. This can happen if the ACK message to the peer did not " +
"arrive and the peer repeats sending us the message. We send another ACK msg.");
sendAckMessage(peer, message, true, null);
removeMailboxMessageAfterProcessing(message);
}))
.setup(tasks(
SellerProcessCounterCurrencyTransferStartedMessage.class,
ApplyFilter.class,
getVerifyPeersFeePaymentClass())
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
},
(errorMessage) -> {
latch.countDown();
})))
.executeTasks();
wait(latch);
}
}
///////////////////////////////////////////////////////////////////////////////////////////
@ -105,26 +117,33 @@ public abstract class SellerProtocol extends DisputeProtocol {
///////////////////////////////////////////////////////////////////////////////////////////
public void onPaymentReceived(ResultHandler resultHandler, ErrorMessageHandler errorMessageHandler) {
SellerEvent event = SellerEvent.PAYMENT_RECEIVED;
expect(anyPhase(Trade.Phase.FIAT_SENT, Trade.Phase.PAYOUT_PUBLISHED)
.with(event)
.preCondition(trade.confirmPermitted()))
.setup(tasks(
ApplyFilter.class,
getVerifyPeersFeePaymentClass(),
SellerSignAndPublishPayoutTx.class,
// SellerSignAndFinalizePayoutTx.class,
// SellerBroadcastPayoutTx.class,
SellerSendPayoutTxPublishedMessage.class)
.using(new TradeTaskRunner(trade, () -> {
resultHandler.handleResult();
handleTaskRunnerSuccess(event);
}, (errorMessage) -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(event, errorMessage);
})))
.run(() -> trade.setState(Trade.State.SELLER_CONFIRMED_IN_UI_FIAT_PAYMENT_RECEIPT))
.executeTasks();
log.info("SellerProtocol.onPaymentReceived()");
synchronized (trade) {
CountDownLatch latch = new CountDownLatch(1);
SellerEvent event = SellerEvent.PAYMENT_RECEIVED;
expect(anyPhase(Trade.Phase.FIAT_SENT, Trade.Phase.PAYOUT_PUBLISHED)
.with(event)
.preCondition(trade.confirmPermitted()))
.setup(tasks(
ApplyFilter.class,
getVerifyPeersFeePaymentClass(),
SellerSignAndPublishPayoutTx.class,
// SellerSignAndFinalizePayoutTx.class,
// SellerBroadcastPayoutTx.class,
SellerSendPayoutTxPublishedMessage.class)
.using(new TradeTaskRunner(trade, () -> {
latch.countDown();
resultHandler.handleResult();
handleTaskRunnerSuccess(event);
}, (errorMessage) -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(event, errorMessage);
})))
.run(() -> trade.setState(Trade.State.SELLER_CONFIRMED_IN_UI_FIAT_PAYMENT_RECEIPT))
.executeTasks();
wait(latch);
}
}

65
core/src/main/java/bisq/core/trade/protocol/TradeProtocol.java
View File

@ -49,6 +49,7 @@ import bisq.common.taskrunner.Task;
import java.util.Collection;
import java.util.Collections;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.TimeUnit;
import lombok.extern.slf4j.Slf4j;
@ -58,6 +59,8 @@ import javax.annotation.Nullable;
@Slf4j
public abstract class TradeProtocol implements DecryptedDirectMessageListener, DecryptedMailboxListener {
public static final int TRADE_TIMEOUT = 60;
protected final ProcessModel processModel;
protected final Trade trade;
private Timer timeoutTimer;
@ -213,23 +216,28 @@ public abstract class TradeProtocol implements DecryptedDirectMessageListener, D
// TODO (woodser): update to use fluent for consistency
public void handleUpdateMultisigRequest(UpdateMultisigRequest message, NodeAddress peer, ErrorMessageHandler errorMessageHandler) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
TradeTaskRunner taskRunner = new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(peer, message, "handleUpdateMultisigRequest");
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
});
taskRunner.addTasks(
ProcessUpdateMultisigRequest.class
);
startTimeout(60); // TODO (woodser): what timeout to use? don't hardcode
taskRunner.run();
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
TradeTaskRunner taskRunner = new TradeTaskRunner(trade,
() -> {
stopTimeout();
latch.countDown();
handleTaskRunnerSuccess(peer, message, "handleUpdateMultisigRequest");
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
});
taskRunner.addTasks(
ProcessUpdateMultisigRequest.class
);
startTimeout(TRADE_TIMEOUT);
taskRunner.run();
wait(latch);
}
}
@ -265,6 +273,14 @@ public abstract class TradeProtocol implements DecryptedDirectMessageListener, D
protected FluentProtocol.Condition anyPhase(Trade.Phase... expectedPhases) {
return new FluentProtocol.Condition(trade).anyPhase(expectedPhases);
}
protected FluentProtocol.Condition state(Trade.State expectedState) {
return new FluentProtocol.Condition(trade).state(expectedState);
}
protected FluentProtocol.Condition anyState(Trade.State... expectedStates) {
return new FluentProtocol.Condition(trade).anyState(expectedStates);
}
@SafeVarargs
public final FluentProtocol.Setup tasks(Class<? extends Task<Trade>>... tasks) {
@ -291,8 +307,11 @@ public abstract class TradeProtocol implements DecryptedDirectMessageListener, D
log.info("Received AckMessage for {} from {} with tradeId {} and uid {}",
ackMessage.getSourceMsgClassName(), peer, trade.getId(), ackMessage.getSourceUid());
} else {
log.warn("Received AckMessage with error state for {} from {} with tradeId {} and errorMessage={}",
ackMessage.getSourceMsgClassName(), peer, trade.getId(), ackMessage.getErrorMessage());
String err = "Received AckMessage with error state for " + ackMessage.getSourceMsgClassName() +
" from "+ peer + " with tradeId " + trade.getId() + " and errorMessage=" + ackMessage.getErrorMessage();
log.warn(err);
stopTimeout();
if (errorMessageHandler != null) errorMessageHandler.handleErrorMessage(err);
}
}
@ -348,6 +367,14 @@ public abstract class TradeProtocol implements DecryptedDirectMessageListener, D
///////////////////////////////////////////////////////////////////////////////////////////
// Timeout
///////////////////////////////////////////////////////////////////////////////////////////
protected void wait(CountDownLatch latch) {
try {
latch.await();
} catch (InterruptedException e) {
throw new RuntimeException(e);
}
}
protected void startTimeout(long timeoutSec) {
stopTimeout();

55
core/src/main/java/bisq/core/trade/protocol/tasks/ProcessDepositRequest.java → core/src/main/java/bisq/core/trade/protocol/tasks/ArbitratorProcessesDepositRequest.java
View File

@ -40,10 +40,10 @@ import monero.daemon.MoneroDaemon;
import monero.wallet.MoneroWallet;
@Slf4j
public class ProcessDepositRequest extends TradeTask {
public class ArbitratorProcessesDepositRequest extends TradeTask {
@SuppressWarnings({"unused"})
public ProcessDepositRequest(TaskRunner taskHandler, Trade trade) {
public ArbitratorProcessesDepositRequest(TaskRunner taskHandler, Trade trade) {
super(taskHandler, trade);
}
@ -78,8 +78,7 @@ public class ProcessDepositRequest extends TradeTask {
boolean isFromTaker = request.getSenderNodeAddress().equals(trade.getTakerNodeAddress());
boolean isFromBuyer = isFromTaker ? offer.getDirection() == OfferPayload.Direction.SELL : offer.getDirection() == OfferPayload.Direction.BUY;
BigInteger depositAmount = ParsingUtils.coinToAtomicUnits(isFromBuyer ? offer.getBuyerSecurityDeposit() : offer.getAmount().add(offer.getSellerSecurityDeposit()));
MoneroWallet multisigWallet = processModel.getProvider().getXmrWalletService().getMultisigWallet(trade.getId()); // TODO (woodser): only get, do not create
String depositAddress = multisigWallet.getPrimaryAddress();
String depositAddress = processModel.getMultisigAddress();
BigInteger tradeFee;
TradingPeer trader = trade.getTradingPeer(request.getSenderNodeAddress());
if (trader == processModel.getMaker()) tradeFee = ParsingUtils.coinToAtomicUnits(trade.getOffer().getMakerFee());
@ -103,34 +102,30 @@ public class ProcessDepositRequest extends TradeTask {
null,
false);
// sychronize to send only one response
synchronized(processModel) {
// set deposit info
trader.setDepositTxHex(request.getDepositTxHex());
trader.setDepositTxKey(request.getDepositTxKey());
// relay deposit txs when both available
// TODO (woodser): add small delay so tx has head start against double spend attempts?
if (processModel.getMaker().getDepositTxHex() != null && processModel.getTaker().getDepositTxHex() != null) {
// set deposit info
trader.setDepositTxHex(request.getDepositTxHex());
trader.setDepositTxKey(request.getDepositTxKey());
// relay txs
daemon.submitTxHex(processModel.getMaker().getDepositTxHex()); // TODO (woodser): check that result is good. will need to release funds if one is submitted
daemon.submitTxHex(processModel.getTaker().getDepositTxHex());
// relay deposit txs when both available
// TODO (woodser): add small delay so tx has head start against double spend attempts?
if (processModel.getMaker().getDepositTxHex() != null && processModel.getTaker().getDepositTxHex() != null) {
// relay txs
daemon.submitTxHex(processModel.getMaker().getDepositTxHex());
daemon.submitTxHex(processModel.getTaker().getDepositTxHex());
// create deposit response
DepositResponse response = new DepositResponse(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(),
Version.getP2PMessageVersion(),
new Date().getTime());
// send deposit response to maker and taker
sendDepositResponse(trade.getMakerNodeAddress(), trade.getMakerPubKeyRing(), response);
sendDepositResponse(trade.getTakerNodeAddress(), trade.getTakerPubKeyRing(), response);
}
// create deposit response
DepositResponse response = new DepositResponse(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(),
Version.getP2PMessageVersion(),
new Date().getTime());
// send deposit response to maker and taker
sendDepositResponse(trade.getMakerNodeAddress(), trade.getMakerPubKeyRing(), response);
sendDepositResponse(trade.getTakerNodeAddress(), trade.getTakerPubKeyRing(), response);
}
// TODO (woodser): request persistence?

19
core/src/main/java/bisq/core/trade/protocol/tasks/ArbitratorSendsInitTradeAndMultisigRequests.java
View File

@ -44,9 +44,6 @@ import monero.wallet.MoneroWallet;
@Slf4j
public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
private boolean takerAck;
private boolean makerAck;
@SuppressWarnings({"unused"})
public ArbitratorSendsInitTradeAndMultisigRequests(TaskRunner taskHandler, Trade trade) {
super(taskHandler, trade);
@ -97,14 +94,15 @@ public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
null,
null);
// listen for maker to ack InitTradeRequest
// send init multisig requests on ack // TODO (woodser): only send InitMultisigRequests if arbitrator has maker reserve tx, else wait for that
TradeListener listener = new TradeListener() {
@Override
public void onAckMessage(AckMessage ackMessage, NodeAddress sender) {
if (sender.equals(trade.getMakerNodeAddress()) && ackMessage.getSourceMsgClassName().equals(InitTradeRequest.class.getSimpleName())) {
if (sender.equals(trade.getMakerNodeAddress()) &&
ackMessage.getSourceMsgClassName().equals(InitTradeRequest.class.getSimpleName()) &&
ackMessage.getSourceUid().equals(makerRequest.getUid())) {
trade.removeListener(this);
if (ackMessage.isSuccess()) sendInitMultisigRequests();
else failed("Received unsuccessful ack for InitTradeRequest from maker"); // TODO (woodser): maker should not do this, penalize them by broadcasting reserve tx?
}
}
};
@ -120,6 +118,7 @@ public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
@Override
public void onArrived() {
log.info("{} arrived at maker: offerId={}; uid={}", makerRequest.getClass().getSimpleName(), makerRequest.getTradeId(), makerRequest.getUid());
complete();
}
@Override
public void onFault(String errorMessage) {
@ -172,8 +171,6 @@ public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
@Override
public void onArrived() {
log.info("{} arrived at arbitrator: offerId={}; uid={}", initMultisigRequest.getClass().getSimpleName(), initMultisigRequest.getTradeId(), initMultisigRequest.getUid());
makerAck = true;
checkComplete();
}
@Override
public void onFault(String errorMessage) {
@ -194,8 +191,6 @@ public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
@Override
public void onArrived() {
log.info("{} arrived at peer: offerId={}; uid={}", initMultisigRequest.getClass().getSimpleName(), initMultisigRequest.getTradeId(), initMultisigRequest.getUid());
takerAck = true;
checkComplete();
}
@Override
public void onFault(String errorMessage) {
@ -206,8 +201,4 @@ public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
}
);
}
private void checkComplete() {
if (makerAck && takerAck) complete();
}
}

3
core/src/main/java/bisq/core/trade/protocol/tasks/ProcessDepositResponse.java
View File

@ -60,6 +60,7 @@ public class ProcessDepositResponse extends TradeTask {
processModel.getP2PService().sendEncryptedDirectMessage(trade.getTradingPeerNodeAddress(), trade.getTradingPeerPubKeyRing(), request, new SendDirectMessageListener() {
@Override
public void onArrived() {
complete();
log.info("{} arrived: trading peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), trade.getTradingPeerNodeAddress(), trade.getId());
}
@Override
@ -69,8 +70,6 @@ public class ProcessDepositResponse extends TradeTask {
failed();
}
});
complete();
} catch (Throwable t) {
failed(t);
}

235
core/src/main/java/bisq/core/trade/protocol/tasks/ProcessInitMultisigRequest.java
View File

@ -52,8 +52,6 @@ public class ProcessInitMultisigRequest extends TradeTask {
private boolean ack1 = false;
private boolean ack2 = false;
private boolean failed = false;
private static Object lock = new Object();
MoneroWallet multisigWallet;
@SuppressWarnings({"unused"})
@ -71,120 +69,119 @@ public class ProcessInitMultisigRequest extends TradeTask {
checkTradeId(processModel.getOfferId(), request);
XmrWalletService xmrWalletService = processModel.getProvider().getXmrWalletService();
System.out.println("PROCESS MULTISIG MESSAGE");
System.out.println(request);
// System.out.println("PROCESS MULTISIG MESSAGE TRADE");
// System.out.println(trade);
// TODO (woodser): verify request including sender's signature in previous pipeline task
// TODO (woodser): run in separate thread to not block UI thread?
// TODO (woodser): validate message has expected sender in previous step
// synchronize access to wallet
synchronized (lock) {
// get peer multisig participant
TradingPeer multisigParticipant;
if (request.getSenderNodeAddress().equals(trade.getMakerNodeAddress())) multisigParticipant = processModel.getMaker();
else if (request.getSenderNodeAddress().equals(trade.getTakerNodeAddress())) multisigParticipant = processModel.getTaker();
else if (request.getSenderNodeAddress().equals(trade.getArbitratorNodeAddress())) multisigParticipant = processModel.getArbitrator();
else throw new RuntimeException("Invalid sender to process init trade message: " + trade.getClass().getName());
// get peer multisig participant
TradingPeer multisigParticipant;
if (request.getSenderNodeAddress().equals(trade.getMakerNodeAddress())) multisigParticipant = processModel.getMaker();
else if (request.getSenderNodeAddress().equals(trade.getTakerNodeAddress())) multisigParticipant = processModel.getTaker();
else if (request.getSenderNodeAddress().equals(trade.getArbitratorNodeAddress())) multisigParticipant = processModel.getArbitrator();
else throw new RuntimeException("Invalid sender to process init trade message: " + trade.getClass().getName());
// reconcile peer's established multisig hex with message
if (multisigParticipant.getPreparedMultisigHex() == null) multisigParticipant.setPreparedMultisigHex(request.getPreparedMultisigHex());
else if (!multisigParticipant.getPreparedMultisigHex().equals(request.getPreparedMultisigHex())) throw new RuntimeException("Message's prepared multisig differs from previous messages, previous: " + multisigParticipant.getPreparedMultisigHex() + ", message: " + request.getPreparedMultisigHex());
if (multisigParticipant.getMadeMultisigHex() == null) multisigParticipant.setMadeMultisigHex(request.getMadeMultisigHex());
else if (!multisigParticipant.getMadeMultisigHex().equals(request.getMadeMultisigHex())) throw new RuntimeException("Message's made multisig differs from previous messages: " + request.getMadeMultisigHex() + " versus " + multisigParticipant.getMadeMultisigHex());
// reconcile peer's established multisig hex with message
if (multisigParticipant.getPreparedMultisigHex() == null) multisigParticipant.setPreparedMultisigHex(request.getPreparedMultisigHex());
else if (!multisigParticipant.getPreparedMultisigHex().equals(request.getPreparedMultisigHex())) throw new RuntimeException("Message's prepared multisig differs from previous messages, previous: " + multisigParticipant.getPreparedMultisigHex() + ", message: " + request.getPreparedMultisigHex());
if (multisigParticipant.getMadeMultisigHex() == null) multisigParticipant.setMadeMultisigHex(request.getMadeMultisigHex());
else if (!multisigParticipant.getMadeMultisigHex().equals(request.getMadeMultisigHex())) throw new RuntimeException("Message's made multisig differs from previous messages");
// prepare multisig if applicable
boolean updateParticipants = false;
if (processModel.getPreparedMultisigHex() == null) {
System.out.println("Preparing multisig wallet!");
multisigWallet = xmrWalletService.createMultisigWallet(trade.getId());
processModel.setPreparedMultisigHex(multisigWallet.prepareMultisig());
updateParticipants = true;
} else {
multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
}
// make multisig if applicable
TradingPeer[] peers = getMultisigPeers();
if (processModel.getMadeMultisigHex() == null && peers[0].getPreparedMultisigHex() != null && peers[1].getPreparedMultisigHex() != null) {
System.out.println("Making multisig wallet!");
MoneroMultisigInitResult result = multisigWallet.makeMultisig(Arrays.asList(peers[0].getPreparedMultisigHex(), peers[1].getPreparedMultisigHex()), 2, xmrWalletService.getWalletPassword()); // TODO (woodser): xmrWalletService.makeMultisig(tradeId, multisigHexes, threshold)?
processModel.setMadeMultisigHex(result.getMultisigHex());
updateParticipants = true;
}
// exchange multisig keys if applicable
if (!processModel.isMultisigSetupComplete() && peers[0].getMadeMultisigHex() != null && peers[1].getMadeMultisigHex() != null) {
System.out.println("Exchanging multisig wallet!");
multisigWallet.exchangeMultisigKeys(Arrays.asList(peers[0].getMadeMultisigHex(), peers[1].getMadeMultisigHex()), xmrWalletService.getWalletPassword());
processModel.setMultisigSetupComplete(true);
}
// update multisig participants if new state to communicate
if (updateParticipants) {
// get destination addresses and pub key rings // TODO: better way, use getMultisigPeers()
NodeAddress peer1Address;
PubKeyRing peer1PubKeyRing;
NodeAddress peer2Address;
PubKeyRing peer2PubKeyRing;
if (trade instanceof ArbitratorTrade) {
peer1Address = trade.getTakerNodeAddress();
peer1PubKeyRing = trade.getTakerPubKeyRing();
peer2Address = trade.getMakerNodeAddress();
peer2PubKeyRing = trade.getMakerPubKeyRing();
} else if (trade instanceof MakerTrade) {
peer1Address = trade.getTakerNodeAddress();
peer1PubKeyRing = trade.getTakerPubKeyRing();
peer2Address = trade.getArbitratorNodeAddress();
peer2PubKeyRing = trade.getArbitratorPubKeyRing();
} else {
peer1Address = trade.getMakerNodeAddress();
peer1PubKeyRing = trade.getMakerPubKeyRing();
peer2Address = trade.getArbitratorNodeAddress();
peer2PubKeyRing = trade.getArbitratorPubKeyRing();
}
if (peer1Address == null) throw new RuntimeException("Peer1 address is null");
if (peer1PubKeyRing == null) throw new RuntimeException("Peer1 pub key ring is null");
if (peer2Address == null) throw new RuntimeException("Peer2 address is null");
if (peer2PubKeyRing == null) throw new RuntimeException("Peer2 pub key ring null");
// complete on successful ack messages
TradeListener ackListener = new TradeListener() {
@Override
public void onAckMessage(AckMessage ackMessage, NodeAddress sender) {
if (!ackMessage.getSourceMsgClassName().equals(InitMultisigRequest.class.getSimpleName())) return;
if (ackMessage.isSuccess()) {
if (sender.equals(peer1Address)) ack1 = true;
if (sender.equals(peer2Address)) ack2 = true;
if (ack1 && ack2) {
trade.removeListener(this);
completeAux();
}
} else {
if (!failed) {
failed = true;
failed(ackMessage.getErrorMessage()); // TODO: (woodser): only fail once? build into task?
}
}
}
};
trade.addListener(ackListener);
// send to peers
sendInitMultisigRequest(peer1Address, peer1PubKeyRing);
sendInitMultisigRequest(peer2Address, peer2PubKeyRing);
} else {
completeAux();
}
// prepare multisig if applicable
boolean updateParticipants = false;
if (processModel.getPreparedMultisigHex() == null) {
log.info("Preparing multisig wallet for trade {}", trade.getId());
multisigWallet = xmrWalletService.createMultisigWallet(trade.getId());
processModel.setPreparedMultisigHex(multisigWallet.prepareMultisig());
updateParticipants = true;
} else if (!processModel.isMultisigSetupComplete()) {
multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
}
} catch (Throwable t) {
failed(t);
}
// make multisig if applicable
TradingPeer[] peers = getMultisigPeers();
if (processModel.getMadeMultisigHex() == null && peers[0].getPreparedMultisigHex() != null && peers[1].getPreparedMultisigHex() != null) {
log.info("Making multisig wallet for trade {}", trade.getId());
MoneroMultisigInitResult result = multisigWallet.makeMultisig(Arrays.asList(peers[0].getPreparedMultisigHex(), peers[1].getPreparedMultisigHex()), 2, xmrWalletService.getWalletPassword()); // TODO (woodser): xmrWalletService.makeMultisig(tradeId, multisigHexes, threshold)?
processModel.setMadeMultisigHex(result.getMultisigHex());
updateParticipants = true;
}
// exchange multisig keys if applicable
if (!processModel.isMultisigSetupComplete() && peers[0].getMadeMultisigHex() != null && peers[1].getMadeMultisigHex() != null) {
log.info("Exchanging multisig wallet keys for trade {}", trade.getId());
multisigWallet.exchangeMultisigKeys(Arrays.asList(peers[0].getMadeMultisigHex(), peers[1].getMadeMultisigHex()), xmrWalletService.getWalletPassword());
processModel.setMultisigSetupComplete(true); // TODO: (woodser): remove this field?
processModel.setMultisigAddress(multisigWallet.getPrimaryAddress());
processModel.getProvider().getXmrWalletService().closeMultisigWallet(trade.getId()); // save and close multisig wallet once it's created
}
// update multisig participants if new state to communicate
if (updateParticipants) {
// get destination addresses and pub key rings // TODO: better way, use getMultisigPeers()
NodeAddress peer1Address;
PubKeyRing peer1PubKeyRing;
NodeAddress peer2Address;
PubKeyRing peer2PubKeyRing;
if (trade instanceof ArbitratorTrade) {
peer1Address = trade.getTakerNodeAddress();
peer1PubKeyRing = trade.getTakerPubKeyRing();
peer2Address = trade.getMakerNodeAddress();
peer2PubKeyRing = trade.getMakerPubKeyRing();
} else if (trade instanceof MakerTrade) {
peer1Address = trade.getTakerNodeAddress();
peer1PubKeyRing = trade.getTakerPubKeyRing();
peer2Address = trade.getArbitratorNodeAddress();
peer2PubKeyRing = trade.getArbitratorPubKeyRing();
} else {
peer1Address = trade.getMakerNodeAddress();
peer1PubKeyRing = trade.getMakerPubKeyRing();
peer2Address = trade.getArbitratorNodeAddress();
peer2PubKeyRing = trade.getArbitratorPubKeyRing();
}
if (peer1Address == null) throw new RuntimeException("Peer1 address is null");
if (peer1PubKeyRing == null) throw new RuntimeException("Peer1 pub key ring is null");
if (peer2Address == null) throw new RuntimeException("Peer2 address is null");
if (peer2PubKeyRing == null) throw new RuntimeException("Peer2 pub key ring null");
// send to peer 1
sendInitMultisigRequest(peer1Address, peer1PubKeyRing, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), peer1Address, request.getTradeId(), request.getUid());
ack1 = true;
if (ack1 && ack2) completeAux();
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), request.getUid(), peer1Address, errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
// send to peer 2
sendInitMultisigRequest(peer2Address, peer2PubKeyRing, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), peer2Address, request.getTradeId(), request.getUid());
ack2 = true;
if (ack1 && ack2) completeAux();
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), request.getUid(), peer2Address, errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
} else {
completeAux();
}
} catch (Throwable t) {
failed(t);
}
}
private TradingPeer[] getMultisigPeers() {
@ -202,9 +199,9 @@ public class ProcessInitMultisigRequest extends TradeTask {
return peers;
}
private void sendInitMultisigRequest(NodeAddress recipient, PubKeyRing pubKeyRing) {
private void sendInitMultisigRequest(NodeAddress recipient, PubKeyRing pubKeyRing, SendDirectMessageListener listener) {
// create request with current multisig hex
// create multisig message with current multisig hex
InitMultisigRequest request = new InitMultisigRequest(
processModel.getOffer().getId(),
processModel.getMyNodeAddress(),
@ -214,24 +211,12 @@ public class ProcessInitMultisigRequest extends TradeTask {
new Date().getTime(),
processModel.getPreparedMultisigHex(),
processModel.getMadeMultisigHex());
log.info("Send {} with offerId {} and uid {} to peer {}", request.getClass().getSimpleName(), request.getTradeId(), request.getUid(), recipient);
processModel.getP2PService().sendEncryptedDirectMessage(recipient, pubKeyRing, request, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), recipient, request.getTradeId(), request.getUid());
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), request.getUid(), recipient, errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
processModel.getP2PService().sendEncryptedDirectMessage(recipient, pubKeyRing, request, listener);
}
private void completeAux() {
multisigWallet.save();
complete();
}
}

16
core/src/main/java/bisq/core/trade/protocol/tasks/ProcessPaymentAccountPayloadRequest.java
View File

@ -60,13 +60,7 @@ public class ProcessPaymentAccountPayloadRequest extends TradeTask {
// set payment account payload
trade.getTradingPeer().setPaymentAccountPayload(paymentAccountPayload);
// subscribe to trade state to notify ui when deposit txs seen in network
tradeStateSubscription = EasyBind.subscribe(trade.stateProperty(), newValue -> {
if (trade.isDepositPublished()) applyPublishedDepositTxs();
});
if (trade.isDepositPublished()) applyPublishedDepositTxs(); // deposit txs might be seen before subcription
// persist and complete
processModel.getTradeManager().requestPersistence();
complete();
@ -74,14 +68,6 @@ public class ProcessPaymentAccountPayloadRequest extends TradeTask {
failed(t);
}
}
private void applyPublishedDepositTxs() {
MoneroWallet multisigWallet = processModel.getXmrWalletService().getMultisigWallet(trade.getId());
MoneroTxWallet makerDepositTx = checkNotNull(multisigWallet.getTx(processModel.getMaker().getDepositTxHash()));
MoneroTxWallet takerDepositTx = checkNotNull(multisigWallet.getTx(processModel.getTaker().getDepositTxHash()));
trade.applyDepositTxs(makerDepositTx, takerDepositTx);
UserThread.execute(this::unSubscribe); // remove trade state subscription at callback
}
private void unSubscribe() {
if (tradeStateSubscription != null) tradeStateSubscription.unsubscribe();

106
core/src/main/java/bisq/core/trade/protocol/tasks/ProcessSignContractRequest.java
View File

@ -26,12 +26,11 @@ import bisq.common.util.Utilities;
import bisq.core.trade.ArbitratorTrade;
import bisq.core.trade.Contract;
import bisq.core.trade.Trade;
import bisq.core.trade.Trade.State;
import bisq.core.trade.TradeUtils;
import bisq.core.trade.messages.SignContractRequest;
import bisq.core.trade.messages.SignContractResponse;
import bisq.core.trade.protocol.TradeListener;
import bisq.core.trade.protocol.TradingPeer;
import bisq.network.p2p.AckMessage;
import bisq.network.p2p.NodeAddress;
import bisq.network.p2p.SendDirectMessageListener;
import java.util.Date;
@ -43,7 +42,6 @@ public class ProcessSignContractRequest extends TradeTask {
private boolean ack1 = false;
private boolean ack2 = false;
private boolean failed = false;
@SuppressWarnings({"unused"})
public ProcessSignContractRequest(TaskRunner taskHandler, Trade trade) {
@ -71,77 +69,71 @@ public class ProcessSignContractRequest extends TradeTask {
complete();
return;
}
// create and sign contract
Contract contract = TradeUtils.createContract(trade);
String contractAsJson = Utilities.objectToJson(contract);
String signature = Sig.sign(processModel.getKeyRing().getSignatureKeyPair().getPrivate(), contractAsJson);
// save contract and signature
trade.setContract(contract);
trade.setContractAsJson(contractAsJson);
trade.getSelf().setContractSignature(signature);
// create response with contract signature
SignContractResponse response = new SignContractResponse(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(),
Version.getP2PMessageVersion(),
new Date().getTime(),
signature);
// get response recipients. only arbitrator sends response to both peers
NodeAddress recipient1 = trade instanceof ArbitratorTrade ? trade.getMakerNodeAddress() : trade.getTradingPeerNodeAddress();
PubKeyRing recipient1PubKey = trade instanceof ArbitratorTrade ? trade.getMakerPubKeyRing() : trade.getTradingPeerPubKeyRing();
NodeAddress recipient2 = trade instanceof ArbitratorTrade ? trade.getTakerNodeAddress() : null;
PubKeyRing recipient2PubKey = trade instanceof ArbitratorTrade ? trade.getTakerPubKeyRing() : null;
// complete on successful ack messages
TradeListener ackListener = new TradeListener() {
// send response to recipient 1
processModel.getP2PService().sendEncryptedDirectMessage(recipient1, recipient1PubKey, response, new SendDirectMessageListener() {
@Override
public void onAckMessage(AckMessage ackMessage, NodeAddress sender) {
if (!ackMessage.getSourceMsgClassName().equals(SignContractResponse.class.getSimpleName())) return;
if (ackMessage.isSuccess()) {
if (sender.equals(trade.getTradingPeerNodeAddress())) ack1 = true;
if (sender.equals(trade.getArbitratorNodeAddress())) ack2 = true;
if (trade instanceof ArbitratorTrade ? ack1 && ack2 : ack1) { // only arbitrator sends response to both peers
trade.removeListener(this);
complete();
}
} else {
if (!failed) {
failed = true;
failed(ackMessage.getErrorMessage()); // TODO: (woodser): only fail once? build into task?
}
}
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", response.getClass().getSimpleName(), recipient1, trade.getId());
ack1 = true;
if (ack1 && (recipient2 == null || ack2)) complete();
}
};
trade.addListener(ackListener);
// send contract signature response(s)
if (recipient1 != null) sendSignContractResponse(recipient1, recipient1PubKey, signature);
if (recipient2 != null) sendSignContractResponse(recipient2, recipient2PubKey, signature);
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", response.getClass().getSimpleName(), recipient1, trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + response + "\nerrorMessage=" + errorMessage);
failed();
}
});
// send response to recipient 2 if applicable
if (recipient2 != null) {
processModel.getP2PService().sendEncryptedDirectMessage(recipient2, recipient2PubKey, response, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", response.getClass().getSimpleName(), recipient2, trade.getId());
ack2 = true;
if (ack1 && ack2) complete();
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", response.getClass().getSimpleName(), recipient2, trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + response + "\nerrorMessage=" + errorMessage);
failed();
}
});
}
// update trade state
trade.setState(State.CONTRACT_SIGNATURE_REQUESTED);
} catch (Throwable t) {
failed(t);
}
}
private void sendSignContractResponse(NodeAddress nodeAddress, PubKeyRing pubKeyRing, String contractSignature) {
// create response with contract signature
SignContractResponse response = new SignContractResponse(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(),
Version.getP2PMessageVersion(),
new Date().getTime(),
contractSignature);
// send request
processModel.getP2PService().sendEncryptedDirectMessage(nodeAddress, pubKeyRing, response, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", response.getClass().getSimpleName(), nodeAddress, trade.getId());
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", response.getClass().getSimpleName(), nodeAddress, trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + response + "\nerrorMessage=" + errorMessage);
failed();
}
});
}
}

33
core/src/main/java/bisq/core/trade/protocol/tasks/ProcessSignContractResponse.java
View File

@ -27,7 +27,6 @@ import bisq.core.trade.messages.DepositRequest;
import bisq.core.trade.messages.SignContractResponse;
import bisq.core.trade.protocol.TradingPeer;
import bisq.network.p2p.SendDirectMessageListener;
import common.utils.GenUtils;
import java.util.Date;
import java.util.UUID;
import lombok.extern.slf4j.Slf4j;
@ -44,18 +43,12 @@ public class ProcessSignContractResponse extends TradeTask {
protected void run() {
try {
runInterceptHook();
// wait until contract is available from peer's sign contract request
// TODO (woodser): this will loop if peer disappears; use proper notification
while (trade.getContract() == null) {
GenUtils.waitFor(250);
}
// get contract and signature
String contractAsJson = trade.getContractAsJson();
SignContractResponse response = (SignContractResponse) processModel.getTradeMessage(); // TODO (woodser): verify response
String signature = response.getContractSignature();
// get peer info
// TODO (woodser): make these utilities / refactor model
PubKeyRing peerPubKeyRing;
@ -64,20 +57,20 @@ public class ProcessSignContractResponse extends TradeTask {
else if (peer == processModel.getMaker()) peerPubKeyRing = trade.getMakerPubKeyRing();
else if (peer == processModel.getTaker()) peerPubKeyRing = trade.getTakerPubKeyRing();
else throw new RuntimeException(response.getClass().getSimpleName() + " is not from maker, taker, or arbitrator");
// verify signature
// TODO (woodser): transfer contract for convenient comparison?
if (!Sig.verify(peerPubKeyRing.getSignaturePubKey(), contractAsJson, signature)) throw new RuntimeException("Peer's contract signature is invalid");
// set peer's signature
peer.setContractSignature(signature);
// send deposit request when all contract signatures received
if (processModel.getArbitrator().getContractSignature() != null && processModel.getMaker().getContractSignature() != null && processModel.getTaker().getContractSignature() != null) {
// start listening for deposit txs
trade.setupDepositTxsListener();
trade.listenForDepositTxs();
// create request for arbitrator to deposit funds to multisig
DepositRequest request = new DepositRequest(
trade.getOffer().getId(),
@ -89,12 +82,14 @@ public class ProcessSignContractResponse extends TradeTask {
trade.getSelf().getContractSignature(),
processModel.getDepositTxXmr().getFullHex(),
processModel.getDepositTxXmr().getKey());
// send request to arbitrator
processModel.getP2PService().sendEncryptedDirectMessage(trade.getArbitratorNodeAddress(), trade.getArbitratorPubKeyRing(), request, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), trade.getArbitratorNodeAddress(), trade.getId());
processModel.getTradeManager().requestPersistence();
complete();
}
@Override
public void onFault(String errorMessage) {
@ -103,11 +98,9 @@ public class ProcessSignContractResponse extends TradeTask {
failed();
}
});
} else {
complete(); // does not yet have needed signatures
}
// persist and complete
processModel.getTradeManager().requestPersistence();
complete();
} catch (Throwable t) {
failed(t);
}

6
core/src/main/java/bisq/core/trade/protocol/tasks/ProcessUpdateMultisigRequest.java
View File

@ -74,6 +74,9 @@ public class ProcessUpdateMultisigRequest extends TradeTask {
// import the multisig hex
int numOutputsSigned = multisigWallet.importMultisigHex(Arrays.asList(request.getUpdatedMultisigHex()));
System.out.println("Num outputs signed by imported multisig hex: " + numOutputsSigned);
// close multisig wallet
processModel.getProvider().getXmrWalletService().closeMultisigWallet(trade.getId());
// respond with updated multisig hex
UpdateMultisigResponse response = new UpdateMultisigResponse(
@ -90,9 +93,6 @@ public class ProcessUpdateMultisigRequest extends TradeTask {
@Override
public void onArrived() {
log.info("{} arrived at trading peer: offerId={}; uid={}", response.getClass().getSimpleName(), response.getTradeId(), response.getUid());
// save multisig wallet
multisigWallet.save(); // TODO (woodser): save on each step or after multisig wallets created?
complete();
}
@Override

166
core/src/main/java/bisq/core/trade/protocol/tasks/SendSignContractRequestAfterMultisig.java
View File

@ -44,9 +44,8 @@ import monero.wallet.model.MoneroTxWallet;
@Slf4j
public class SendSignContractRequestAfterMultisig extends TradeTask {
private boolean ack1 = false;
private boolean ack1 = false; // TODO (woodser) these represent onArrived(), not the ack
private boolean ack2 = false;
private boolean failed = false;
@SuppressWarnings({"unused"})
public SendSignContractRequestAfterMultisig(TaskRunner taskHandler, Trade trade) {
@ -57,97 +56,94 @@ public class SendSignContractRequestAfterMultisig extends TradeTask {
protected void run() {
try {
runInterceptHook();
// skip if multisig wallet not complete
if (!processModel.isMultisigSetupComplete()) return; // TODO: woodser: this does not ack original request?
// skip if deposit tx already created
if (processModel.getDepositTxXmr() != null) return;
// thaw reserved outputs
MoneroWallet wallet = trade.getXmrWalletService().getWallet();
for (String reserveTxKeyImage : trade.getSelf().getReserveTxKeyImages()) {
wallet.thawOutput(reserveTxKeyImage);
}
// create deposit tx
BigInteger tradeFee = ParsingUtils.coinToAtomicUnits(trade instanceof MakerTrade ? trade.getOffer().getMakerFee() : trade.getTakerFee());
Offer offer = processModel.getOffer();
BigInteger depositAmount = ParsingUtils.coinToAtomicUnits(trade instanceof SellerTrade ? offer.getAmount().add(offer.getSellerSecurityDeposit()) : offer.getBuyerSecurityDeposit());
MoneroWallet multisigWallet = processModel.getProvider().getXmrWalletService().getMultisigWallet(trade.getId());
String multisigAddress = multisigWallet.getPrimaryAddress();
MoneroTxWallet depositTx = TradeUtils.createDepositTx(trade.getXmrWalletService(), tradeFee, multisigAddress, depositAmount);
// freeze deposit outputs
// TODO (woodser): save frozen key images and unfreeze if trade fails before deposited to multisig
for (MoneroOutput input : depositTx.getInputs()) {
wallet.freezeOutput(input.getKeyImage().getHex());
}
// save process state
processModel.setDepositTxXmr(depositTx);
trade.getSelf().setDepositTxHash(depositTx.getHash());
// complete on successful ack messages
TradeListener ackListener = new TradeListener() {
@Override
public void onAckMessage(AckMessage ackMessage, NodeAddress sender) {
if (!ackMessage.getSourceMsgClassName().equals(SignContractRequest.class.getSimpleName())) return;
if (ackMessage.isSuccess()) {
if (sender.equals(trade.getTradingPeerNodeAddress())) ack1 = true;
if (sender.equals(trade.getArbitratorNodeAddress())) ack2 = true;
if (ack1 && ack2) {
trade.removeListener(this);
completeAux();
}
} else {
if (!failed) {
failed = true;
failed(ackMessage.getErrorMessage()); // TODO: (woodser): only fail once? build into task?
}
}
synchronized (trade.getXmrWalletService().getWallet()) { // synchronize on wallet to create deposit tx and freeze funds
// skip if multisig wallet not complete
if (!processModel.isMultisigSetupComplete()) {
complete();
return; // TODO: woodser: this does not ack original request?
}
// skip if deposit tx already created
if (processModel.getDepositTxXmr() != null) {
complete();
return;
}
};
trade.addListener(ackListener);
// send sign contract requests to peer and arbitrator
sendSignContractRequest(trade.getTradingPeerNodeAddress(), trade.getTradingPeerPubKeyRing(), offer, depositTx);
sendSignContractRequest(trade.getArbitratorNodeAddress(), trade.getArbitratorPubKeyRing(), offer, depositTx);
// thaw reserved outputs
MoneroWallet wallet = trade.getXmrWalletService().getWallet();
for (String reserveTxKeyImage : trade.getSelf().getReserveTxKeyImages()) {
wallet.thawOutput(reserveTxKeyImage);
}
// create deposit tx
BigInteger tradeFee = ParsingUtils.coinToAtomicUnits(trade instanceof MakerTrade ? trade.getOffer().getMakerFee() : trade.getTakerFee());
Offer offer = processModel.getOffer();
BigInteger depositAmount = ParsingUtils.coinToAtomicUnits(trade instanceof SellerTrade ? offer.getAmount().add(offer.getSellerSecurityDeposit()) : offer.getBuyerSecurityDeposit());
String multisigAddress = processModel.getMultisigAddress();
MoneroTxWallet depositTx = TradeUtils.createDepositTx(trade.getXmrWalletService(), tradeFee, multisigAddress, depositAmount);
// freeze deposit outputs
// TODO (woodser): save frozen key images and unfreeze if trade fails before deposited to multisig
for (MoneroOutput input : depositTx.getInputs()) {
wallet.freezeOutput(input.getKeyImage().getHex());
}
// save process state
processModel.setDepositTxXmr(depositTx);
trade.getSelf().setDepositTxHash(depositTx.getHash());
// create request for peer and arbitrator to sign contract
SignContractRequest request = new SignContractRequest(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(),
Version.getP2PMessageVersion(),
new Date().getTime(),
trade.getProcessModel().getAccountId(),
trade.getProcessModel().getPaymentAccountPayload(trade).getHash(),
trade.getXmrWalletService().getAddressEntry(offer.getId(), XmrAddressEntry.Context.TRADE_PAYOUT).get().getAddressString(),
depositTx.getHash());
// send request to trading peer
processModel.getP2PService().sendEncryptedDirectMessage(trade.getTradingPeerNodeAddress(), trade.getTradingPeerPubKeyRing(), request, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), trade.getTradingPeerNodeAddress(), trade.getId());
ack1 = true;
if (ack1 && ack2) completeAux();
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), trade.getTradingPeerNodeAddress(), trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
// send request to arbitrator
processModel.getP2PService().sendEncryptedDirectMessage(trade.getArbitratorNodeAddress(), trade.getArbitratorPubKeyRing(), request, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), trade.getArbitratorNodeAddress(), trade.getId());
ack2 = true;
if (ack1 && ack2) completeAux();
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), trade.getArbitratorNodeAddress(), trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
}
} catch (Throwable t) {
failed(t);
}
}
private void sendSignContractRequest(NodeAddress nodeAddress, PubKeyRing pubKeyRing, Offer offer, MoneroTxWallet depositTx) {
// create request to sign contract
SignContractRequest request = new SignContractRequest(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(), // TODO: ensure not reusing request id across protocol
Version.getP2PMessageVersion(),
new Date().getTime(),
trade.getProcessModel().getAccountId(),
trade.getProcessModel().getPaymentAccountPayload(trade).getHash(),
trade.getXmrWalletService().getAddressEntry(offer.getId(), XmrAddressEntry.Context.TRADE_PAYOUT).get().getAddressString(),
depositTx.getHash());
// send request
processModel.getP2PService().sendEncryptedDirectMessage(nodeAddress, pubKeyRing, request, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), nodeAddress, trade.getId());
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), nodeAddress, trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
}
private void completeAux() {
processModel.getXmrWalletService().getWallet().save();
complete();

2
core/src/main/java/bisq/core/trade/protocol/tasks/SetupDepositTxsListener.java
View File

@ -33,7 +33,7 @@ public class SetupDepositTxsListener extends TradeTask {
protected void run() {
try {
runInterceptHook();
trade.setupDepositTxsListener();
trade.listenForDepositTxs();
complete();
} catch (Throwable t) {
failed(t);

3
core/src/main/java/bisq/core/trade/protocol/tasks/UpdateMultisigWithTradingPeer.java
View File

@ -57,7 +57,7 @@ public class UpdateMultisigWithTradingPeer extends TradeTask {
// fetch relevant trade info
XmrWalletService walletService = processModel.getProvider().getXmrWalletService();
MoneroWallet multisigWallet = walletService.getMultisigWallet(trade.getId());
MoneroWallet multisigWallet = walletService.getMultisigWallet(trade.getId()); // closed in BuyerCreateAndSignPayoutTx
// skip if multisig wallet does not need updated
if (!multisigWallet.isMultisigImportNeeded()) {
@ -74,7 +74,6 @@ public class UpdateMultisigWithTradingPeer extends TradeTask {
UpdateMultisigResponse response = (UpdateMultisigResponse) message;
multisigWallet.importMultisigHex(Arrays.asList(response.getUpdatedMultisigHex()));
multisigWallet.sync();
multisigWallet.save();
trade.removeListener(updateMultisigResponseListener);
complete();
}

22
core/src/main/java/bisq/core/trade/protocol/tasks/buyer/BuyerCreateAndSignPayoutTx.java
View File

@ -18,7 +18,6 @@
package bisq.core.trade.protocol.tasks.buyer;
import bisq.core.btc.wallet.XmrWalletService;
import bisq.core.offer.Offer;
import bisq.core.trade.MakerTrade;
import bisq.core.trade.Trade;
import bisq.core.trade.protocol.tasks.TradeTask;
@ -42,10 +41,8 @@ import static com.google.common.base.Preconditions.checkNotNull;
import monero.common.MoneroError;
import monero.wallet.MoneroWallet;
import monero.wallet.model.MoneroAccount;
import monero.wallet.model.MoneroDestination;
import monero.wallet.model.MoneroSubaddress;
import monero.wallet.model.MoneroTxConfig;
import monero.wallet.model.MoneroTxQuery;
import monero.wallet.model.MoneroTxWallet;
@Slf4j
@ -65,7 +62,7 @@ public class BuyerCreateAndSignPayoutTx extends TradeTask {
Preconditions.checkNotNull(trade.getTradeAmount(), "trade.getTradeAmount() must not be null");
Preconditions.checkNotNull(trade.getMakerDepositTx(), "trade.getMakerDepositTx() must not be null");
Preconditions.checkNotNull(trade.getTakerDepositTx(), "trade.getTakerDepositTx() must not be null");
Offer offer = checkNotNull(trade.getOffer(), "offer must not be null");
checkNotNull(trade.getOffer(), "offer must not be null");
// gather relevant trade info
XmrWalletService walletService = processModel.getProvider().getXmrWalletService();
@ -84,8 +81,8 @@ public class BuyerCreateAndSignPayoutTx extends TradeTask {
if (multisigWallet.isMultisigImportNeeded()) throw new RuntimeException("Multisig import is still needed!!!");
MoneroTxWallet feeEstimateTx = multisigWallet.createTx(new MoneroTxConfig()
.setAccountIndex(0)
.addDestination(buyerPayoutAddress, buyerPayoutAmount.multiply(BigInteger.valueOf(4)).divide(BigInteger.valueOf(5))) // reduce payment amount to compute fee of similar tx
.addDestination(sellerPayoutAddress, sellerPayoutAmount.multiply(BigInteger.valueOf(4)).divide(BigInteger.valueOf(5)))
.addDestination(buyerPayoutAddress, buyerPayoutAmount.multiply(BigInteger.valueOf(9)).divide(BigInteger.valueOf(10))) // reduce payment amount to compute fee of similar tx
.addDestination(sellerPayoutAddress, sellerPayoutAmount.multiply(BigInteger.valueOf(9)).divide(BigInteger.valueOf(10)))
.setRelay(false)
);
@ -98,19 +95,18 @@ public class BuyerCreateAndSignPayoutTx extends TradeTask {
numAttempts++;
payoutTx = multisigWallet.createTx(new MoneroTxConfig()
.setAccountIndex(0)
.addDestination(new MoneroDestination(buyerPayoutAddress, buyerPayoutAmount.subtract(feeEstimate.divide(BigInteger.valueOf(2))))) // split fee subtracted from each payout amount
.addDestination(new MoneroDestination(sellerPayoutAddress, sellerPayoutAmount.subtract(feeEstimate.divide(BigInteger.valueOf(2))))) // TODO (woodser): support addDestination(addr, amt) without new
.addDestination(buyerPayoutAddress, buyerPayoutAmount.subtract(feeEstimate.divide(BigInteger.valueOf(2)))) // split fee subtracted from each payout amount
.addDestination(sellerPayoutAddress, sellerPayoutAmount.subtract(feeEstimate.divide(BigInteger.valueOf(2))))
.setRelay(false));
} catch (MoneroError e) {
//e.printStackTrace();
//System.out.println("FAILED TO CREATE PAYOUT TX, ITERATING...");
// exception expected
}
}
if (payoutTx == null) throw new RuntimeException("Failed to generate payout tx");
System.out.println("PAYOUT TX GENERATED ON ATTEMPT " + numAttempts);
System.out.println(payoutTx);
if (payoutTx == null) throw new RuntimeException("Failed to generate payout tx after " + numAttempts + " attempts");
log.info("Payout transaction generated on attempt {}: {}", numAttempts, payoutTx);
processModel.setBuyerSignedPayoutTx(payoutTx);
walletService.closeMultisigWallet(trade.getId());
complete();
} catch (Throwable t) {
failed(t);

1
core/src/main/java/bisq/core/trade/protocol/tasks/buyer/BuyerProcessPayoutTxPublishedMessage.java
View File

@ -63,6 +63,7 @@ public class BuyerProcessPayoutTxPublishedMessage extends TradeTask {
trade.setPayoutTx(multisigWallet.getTx(txHashes.get(0)));
XmrWalletService.printTxs("payoutTx received from peer", trade.getPayoutTx());
trade.setState(Trade.State.BUYER_RECEIVED_PAYOUT_TX_PUBLISHED_MSG);
walletService.closeMultisigWallet(trade.getId());
//processModel.getBtcWalletService().resetCoinLockedInMultiSigAddressEntry(trade.getId());
} else {
log.info("We got the payout tx already set from BuyerSetupPayoutTxListener and do nothing here. trade ID={}", trade.getId());

96
core/src/main/java/bisq/core/trade/protocol/tasks/seller/SellerSignAndPublishPayoutTx.java
View File

@ -18,7 +18,6 @@
package bisq.core.trade.protocol.tasks.seller;
import bisq.core.btc.wallet.XmrWalletService;
import bisq.core.offer.Offer;
import bisq.core.trade.Contract;
import bisq.core.trade.MakerTrade;
import bisq.core.trade.Trade;
@ -31,10 +30,6 @@ import java.math.BigInteger;
import lombok.extern.slf4j.Slf4j;
import static com.google.common.base.Preconditions.checkNotNull;
import monero.wallet.MoneroWallet;
import monero.wallet.model.MoneroDestination;
import monero.wallet.model.MoneroMultisigSignResult;
@ -59,29 +54,17 @@ public class SellerSignAndPublishPayoutTx extends TradeTask {
MoneroWallet multisigWallet = walletService.getMultisigWallet(trade.getId());
String buyerSignedPayoutTxHex = trade.getTradingPeer().getSignedPayoutTxHex();
Contract contract = trade.getContract();
Offer offer = checkNotNull(trade.getOffer(), "offer must not be null");
BigInteger sellerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? processModel.getMaker().getDepositTxHash() : processModel.getTaker().getDepositTxHash()).getIncomingAmount(); // TODO (woodser): redundancy of processModel.getPreparedDepositTxId() vs trade.getDepositTxId() necessary or avoidable?
BigInteger buyerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? processModel.getTaker().getDepositTxHash() : processModel.getMaker().getDepositTxHash()).getIncomingAmount();
BigInteger tradeAmount = ParsingUtils.coinToAtomicUnits(trade.getTradeAmount());
System.out.println("SELLER VERIFYING PAYOUT TX");
System.out.println("Trade amount: " + trade.getTradeAmount());
System.out.println("Buyer deposit amount: " + buyerDepositAmount);
System.out.println("Seller deposit amount: " + sellerDepositAmount);
BigInteger buyerPayoutAmount = ParsingUtils.coinToAtomicUnits(offer.getBuyerSecurityDeposit().add(trade.getTradeAmount()));
System.out.println("Buyer payout amount (with multiplier): " + buyerPayoutAmount);
BigInteger sellerPayoutAmount = ParsingUtils.coinToAtomicUnits(offer.getSellerSecurityDeposit());
System.out.println("Seller payout amount (with multiplier): " + sellerPayoutAmount);
// parse buyer-signed payout tx
MoneroTxSet parsedTxSet = multisigWallet.describeTxSet(new MoneroTxSet().setMultisigTxHex(buyerSignedPayoutTxHex));
if (parsedTxSet.getTxs().get(0).getTxSet() != parsedTxSet) System.out.println("LINKS ARE WRONG STRAIGHT FROM PARSING!!!");
if (parsedTxSet.getTxs() == null || parsedTxSet.getTxs().size() != 1) throw new RuntimeException("Bad buyer-signed payout tx"); // TODO (woodser): nack
if (parsedTxSet.getTxs() == null || parsedTxSet.getTxs().size() != 1) throw new RuntimeException("Bad buyer-signed payout tx"); // TODO (woodser): test nack
MoneroTxWallet buyerSignedPayoutTx = parsedTxSet.getTxs().get(0);
System.out.println("Parsed buyer signed tx hex:\n" + buyerSignedPayoutTx);
// verify payout tx has exactly 2 destinations
log.info("Seller verifying buyer-signed payout tx");
if (buyerSignedPayoutTx.getOutgoingTransfer() == null || buyerSignedPayoutTx.getOutgoingTransfer().getDestinations() == null || buyerSignedPayoutTx.getOutgoingTransfer().getDestinations().size() != 2) throw new RuntimeException("Buyer-signed payout tx does not have exactly two destinations");
// get buyer and seller destinations (order not preserved)
@ -93,8 +76,8 @@ public class SellerSignAndPublishPayoutTx extends TradeTask {
if (!buyerPayoutDestination.getAddress().equals(contract.getBuyerPayoutAddressString())) throw new RuntimeException("Buyer payout address does not match contract");
if (!sellerPayoutDestination.getAddress().equals(contract.getSellerPayoutAddressString())) throw new RuntimeException("Seller payout address does not match contract");
// verify change address is multisig's primary address // TODO (woodser): ideally change amount is 0, seen with 0 conf payout tx
if (!buyerSignedPayoutTx.getChangeAmount().equals(new BigInteger("0")) && !buyerSignedPayoutTx.getChangeAddress().equals(multisigWallet.getPrimaryAddress())) throw new RuntimeException("Change address is not multisig wallet's primary address");
// verify change address is multisig's primary address
if (!buyerSignedPayoutTx.getChangeAmount().equals(BigInteger.ZERO) && !buyerSignedPayoutTx.getChangeAddress().equals(multisigWallet.getPrimaryAddress())) throw new RuntimeException("Change address is not multisig wallet's primary address");
// verify sum of outputs = destination amounts + change amount
if (!buyerSignedPayoutTx.getOutputSum().equals(buyerPayoutDestination.getAmount().add(sellerPayoutDestination.getAmount()).add(buyerSignedPayoutTx.getChangeAmount()))) throw new RuntimeException("Sum of outputs != destination amounts + change amount");
@ -117,69 +100,16 @@ public class SellerSignAndPublishPayoutTx extends TradeTask {
// submit fully signed payout tx to the network
multisigWallet.submitMultisigTxHex(signedMultisigTxHex);
// close multisig wallet
walletService.closeMultisigWallet(trade.getId());
// update state
parsedTxSet.setMultisigTxHex(signedMultisigTxHex);
if (parsedTxSet.getTxs().get(0).getTxSet() != parsedTxSet) System.out.println("LINKS ARE WRONG!!!");
trade.setPayoutTx(parsedTxSet.getTxs().get(0));
trade.setPayoutTxId(parsedTxSet.getTxs().get(0).getHash());
trade.setState(Trade.State.SELLER_PUBLISHED_PAYOUT_TX);
complete();
// checkNotNull(trade.getTradeAmount(), "trade.getTradeAmount() must not be null");
//
// Offer offer = trade.getOffer();
// TradingPeer tradingPeer = trade.getTradingPeer();
// BtcWalletService walletService = processModel.getBtcWalletService();
// String id = processModel.getOffer().getId();
//
// final byte[] buyerSignature = tradingPeer.getSignature();
//
// Coin buyerPayoutAmount = checkNotNull(offer.getBuyerSecurityDeposit()).add(trade.getTradeAmount());
// Coin sellerPayoutAmount = offer.getSellerSecurityDeposit();
//
// final String buyerPayoutAddressString = tradingPeer.getPayoutAddressString();
// String sellerPayoutAddressString = walletService.getOrCreateAddressEntry(id,
// AddressEntry.Context.TRADE_PAYOUT).getAddressString();
//
// final byte[] buyerMultiSigPubKey = tradingPeer.getMultiSigPubKey();
// byte[] sellerMultiSigPubKey = processModel.getMyMultiSigPubKey();
//
// Optional<AddressEntry> multiSigAddressEntryOptional = walletService.getAddressEntry(id,
// AddressEntry.Context.MULTI_SIG);
// if (!multiSigAddressEntryOptional.isPresent() || !Arrays.equals(sellerMultiSigPubKey,
// multiSigAddressEntryOptional.get().getPubKey())) {
// // In some error edge cases it can be that the address entry is not marked (or was unmarked).
// // We do not want to fail in that case and only report a warning.
// // One case where that helped to avoid a failed payout attempt was when the taker had a power failure
// // at the moment when the offer was taken. This caused first to not see step 1 in the trade process
// // (all greyed out) but after the deposit tx was confirmed the trade process was on step 2 and
// // everything looked ok. At the payout multiSigAddressEntryOptional was not present and payout
// // could not be done. By changing the previous behaviour from fail if multiSigAddressEntryOptional
// // is not present to only log a warning the payout worked.
// log.warn("sellerMultiSigPubKey from AddressEntry does not match the one from the trade data. " +
// "Trade id ={}, multiSigAddressEntryOptional={}", id, multiSigAddressEntryOptional);
// }
//
// DeterministicKey multiSigKeyPair = walletService.getMultiSigKeyPair(id, sellerMultiSigPubKey);
//
// Transaction transaction = processModel.getTradeWalletService().sellerSignsAndFinalizesPayoutTx(
// checkNotNull(trade.getDepositTx()),
// buyerSignature,
// buyerPayoutAmount,
// sellerPayoutAmount,
// buyerPayoutAddressString,
// sellerPayoutAddressString,
// multiSigKeyPair,
// buyerMultiSigPubKey,
// sellerMultiSigPubKey
// );
//
// trade.setPayoutTx(transaction);
//
// walletService.swapTradeEntryToAvailableEntry(id, AddressEntry.Context.MULTI_SIG);
//
// complete();
// update trade state
parsedTxSet.setMultisigTxHex(signedMultisigTxHex); // TODO (woodser): better place to store this?
trade.setPayoutTx(parsedTxSet.getTxs().get(0));
trade.setPayoutTxId(parsedTxSet.getTxs().get(0).getHash());
trade.setState(Trade.State.SELLER_PUBLISHED_PAYOUT_TX);
complete();
} catch (Throwable t) {
failed(t);
}

43
core/src/main/java/bisq/core/trade/protocol/tasks/taker/TakerReservesTradeFunds.java
View File

@ -40,29 +40,28 @@ public class TakerReservesTradeFunds extends TradeTask {
protected void run() {
try {
runInterceptHook();
// create transaction to reserve trade
String returnAddress = model.getXmrWalletService().getOrCreateAddressEntry(trade.getOffer().getId(), XmrAddressEntry.Context.TRADE_PAYOUT).getAddressString();
BigInteger takerFee = ParsingUtils.coinToAtomicUnits(trade.getTakerFee());
BigInteger depositAmount = ParsingUtils.centinerosToAtomicUnits(processModel.getFundsNeededForTradeAsLong());
MoneroTxWallet reserveTx = TradeUtils.createReserveTx(model.getXmrWalletService(), trade.getId(), takerFee, returnAddress, depositAmount);
// freeze trade funds
// TODO (woodser): synchronize to handle potential race condition where concurrent trades freeze each other's outputs
List<String> reserveTxKeyImages = new ArrayList<String>();
MoneroWallet wallet = model.getXmrWalletService().getWallet();
for (MoneroOutput input : reserveTx.getInputs()) {
reserveTxKeyImages.add(input.getKeyImage().getHex());
wallet.freezeOutput(input.getKeyImage().getHex());
// synchronize on wallet to reserve key images
synchronized (model.getXmrWalletService().getWallet()) {
// create transaction to reserve trade
String returnAddress = model.getXmrWalletService().getOrCreateAddressEntry(trade.getOffer().getId(), XmrAddressEntry.Context.TRADE_PAYOUT).getAddressString();
BigInteger takerFee = ParsingUtils.coinToAtomicUnits(trade.getTakerFee());
BigInteger depositAmount = ParsingUtils.centinerosToAtomicUnits(processModel.getFundsNeededForTradeAsLong());
MoneroTxWallet reserveTx = TradeUtils.reserveTradeFunds(model.getXmrWalletService(), trade.getId(), takerFee, returnAddress, depositAmount);
// collect reserved key images // TODO (woodser): switch to proof of reserve?
List<String> reservedKeyImages = new ArrayList<String>();
for (MoneroOutput input : reserveTx.getInputs()) reservedKeyImages.add(input.getKeyImage().getHex());
// save process state
// TODO (woodser): persist
processModel.setReserveTx(reserveTx);
processModel.getTaker().setReserveTxKeyImages(reservedKeyImages);
trade.setTakerFeeTxId(reserveTx.getHash()); // TODO (woodser): this should be multisig deposit tx id? how is it used?
//trade.setState(Trade.State.TAKER_PUBLISHED_TAKER_FEE_TX); // TODO (woodser): fee tx is not broadcast separate, update states
complete();
}
// save process state
// TODO (woodser): persist
processModel.setReserveTx(reserveTx);
processModel.getTaker().setReserveTxKeyImages(reserveTxKeyImages);
trade.setTakerFeeTxId(reserveTx.getHash()); // TODO (woodser): this should be multisig deposit tx id? how is it used?
//trade.setState(Trade.State.TAKER_PUBLISHED_TAKER_FEE_TX); // TODO (woodser): fee tx is not broadcast separate, update states
complete();
} catch (Throwable t) {
trade.setErrorMessage("An error occurred.\n" +
"Error message:\n"

5
core/src/main/java/bisq/core/trade/protocol/tasks/taker/TakerSendsInitTradeRequestToArbitrator.java
View File

@ -42,12 +42,11 @@ public class TakerSendsInitTradeRequestToArbitrator extends TradeTask {
try {
runInterceptHook();
// send request to offer signer
// send request to arbitrator
sendInitTradeRequest(trade.getOffer().getOfferPayload().getArbitratorSigner(), new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived at arbitrator: offerId={}", InitTradeRequest.class.getSimpleName(), trade.getId());
complete();
}
// send request to backup arbitrator if signer unavailable
@ -63,7 +62,6 @@ public class TakerSendsInitTradeRequestToArbitrator extends TradeTask {
@Override
public void onArrived() {
log.info("{} arrived at backup arbitrator: offerId={}", InitTradeRequest.class.getSimpleName(), trade.getId());
complete();
}
@Override
public void onFault(String errorMessage) { // TODO (woodser): distinguish nack from offline
@ -73,6 +71,7 @@ public class TakerSendsInitTradeRequestToArbitrator extends TradeTask {
});
}
});
complete(); // TODO (woodser): onArrived() doesn't get called if arbitrator rejects concurrent requests. always complete before onArrived()?
} catch (Throwable t) {
failed(t);
}

2
daemon/src/main/java/bisq/daemon/grpc/GrpcErrorMessageHandler.java
View File

@ -70,7 +70,7 @@ public class GrpcErrorMessageHandler implements ErrorMessageHandler {
}
@Override
public void handleErrorMessage(String errorMessage) {
public synchronized void handleErrorMessage(String errorMessage) {
// A task runner may call handleErrorMessage(String) more than once.
// Throw only one exception if that happens, to avoid looping until the
// grpc stream is closed

4
daemon/src/main/java/bisq/daemon/grpc/GrpcExceptionHandler.java
View File

@ -47,7 +47,7 @@ class GrpcExceptionHandler {
public GrpcExceptionHandler() {
}
public void handleException(Logger log,
public synchronized void handleException(Logger log,
Throwable t,
StreamObserver<?> responseObserver) {
// Log the core api error (this is last chance to do that), wrap it in a new
@ -58,7 +58,7 @@ class GrpcExceptionHandler {
throw grpcStatusRuntimeException;
}
public void handleExceptionAsWarning(Logger log,
public synchronized void handleExceptionAsWarning(Logger log,
String calledMethod,
Throwable t,
StreamObserver<?> responseObserver) {

34
daemon/src/main/java/bisq/daemon/grpc/GrpcNotificationsService.java
View File

@ -8,7 +8,7 @@ import bisq.proto.grpc.NotificationsGrpc.NotificationsImplBase;
import bisq.proto.grpc.RegisterNotificationListenerRequest;
import bisq.proto.grpc.SendNotificationReply;
import bisq.proto.grpc.SendNotificationRequest;
import io.grpc.Context;
import io.grpc.ServerInterceptor;
import io.grpc.stub.StreamObserver;
@ -46,24 +46,30 @@ class GrpcNotificationsService extends NotificationsImplBase {
@Override
public void registerNotificationListener(RegisterNotificationListenerRequest request,
StreamObserver<NotificationMessage> responseObserver) {
try {
coreApi.addNotificationListener(new GrpcNotificationListener(responseObserver));
// No onNext / onCompleted, as the response observer should be kept open
} catch (Throwable t) {
exceptionHandler.handleException(log, t, responseObserver);
}
Context ctx = Context.current().fork(); // context is independent for long-lived request
ctx.run(() -> {
try {
coreApi.addNotificationListener(new GrpcNotificationListener(responseObserver));
// No onNext / onCompleted, as the response observer should be kept open
} catch (Throwable t) {
exceptionHandler.handleException(log, t, responseObserver);
}
});
}
@Override
public void sendNotification(SendNotificationRequest request,
StreamObserver<SendNotificationReply> responseObserver) {
try {
coreApi.sendNotification(request.getNotification());
responseObserver.onNext(SendNotificationReply.newBuilder().build());
responseObserver.onCompleted();
} catch (Throwable t) {
exceptionHandler.handleException(log, t, responseObserver);
}
Context ctx = Context.current().fork(); // context is independent from notification delivery
ctx.run(() -> {
try {
coreApi.sendNotification(request.getNotification());
responseObserver.onNext(SendNotificationReply.newBuilder().build());
responseObserver.onCompleted();
} catch (Throwable t) {
exceptionHandler.handleException(log, t, responseObserver);
}
});
}
@Value

9
daemon/src/main/java/bisq/daemon/grpc/GrpcOffersService.java
View File

@ -141,6 +141,11 @@ class GrpcOffersService extends OffersImplBase {
@Override
public void createOffer(CreateOfferRequest req,
StreamObserver<CreateOfferReply> responseObserver) {
GrpcErrorMessageHandler errorMessageHandler =
new GrpcErrorMessageHandler(getCreateOfferMethod().getFullMethodName(),
responseObserver,
exceptionHandler,
log);
try {
coreApi.createAnPlaceOffer(
req.getCurrencyCode(),
@ -162,6 +167,10 @@ class GrpcOffersService extends OffersImplBase {
.build();
responseObserver.onNext(reply);
responseObserver.onCompleted();
},
errorMessage -> {
if (!errorMessageHandler.isErrorHandled())
errorMessageHandler.handleErrorMessage(errorMessage);
});
} catch (Throwable cause) {
exceptionHandler.handleException(log, cause, responseObserver);

1
daemon/src/main/java/bisq/daemon/grpc/GrpcServer.java
View File

@ -65,7 +65,6 @@ public class GrpcServer {
GrpcMoneroConnectionsService moneroConnectionsService,
GrpcMoneroNodeService moneroNodeService) {
this.server = ServerBuilder.forPort(config.apiPort)
.executor(UserThread.getExecutor())
.addService(interceptForward(accountService, accountService.interceptors()))
.addService(interceptForward(disputeAgentsService, disputeAgentsService.interceptors()))
.addService(interceptForward(disputesService, disputesService.interceptors()))

34
daemon/src/main/java/bisq/daemon/grpc/GrpcTradesService.java
View File

@ -19,7 +19,6 @@ package bisq.daemon.grpc;
import bisq.core.api.CoreApi;
import bisq.core.api.model.TradeInfo;
import bisq.core.support.messages.ChatMessage;
import bisq.core.trade.Trade;
import bisq.proto.grpc.ConfirmPaymentReceivedReply;
@ -40,7 +39,6 @@ import bisq.proto.grpc.TakeOfferReply;
import bisq.proto.grpc.TakeOfferRequest;
import bisq.proto.grpc.WithdrawFundsReply;
import bisq.proto.grpc.WithdrawFundsRequest;
import io.grpc.ServerInterceptor;
import io.grpc.stub.StreamObserver;
@ -122,20 +120,24 @@ class GrpcTradesService extends TradesImplBase {
responseObserver,
exceptionHandler,
log);
coreApi.takeOffer(req.getOfferId(),
req.getPaymentAccountId(),
trade -> {
TradeInfo tradeInfo = toTradeInfo(trade);
var reply = TakeOfferReply.newBuilder()
.setTrade(tradeInfo.toProtoMessage())
.build();
responseObserver.onNext(reply);
responseObserver.onCompleted();
},
errorMessage -> {
if (!errorMessageHandler.isErrorHandled())
errorMessageHandler.handleErrorMessage(errorMessage);
});
try {
coreApi.takeOffer(req.getOfferId(),
req.getPaymentAccountId(),
trade -> {
TradeInfo tradeInfo = toTradeInfo(trade);
var reply = TakeOfferReply.newBuilder()
.setTrade(tradeInfo.toProtoMessage())
.build();
responseObserver.onNext(reply);
responseObserver.onCompleted();
},
errorMessage -> {
if (!errorMessageHandler.isErrorHandled())
errorMessageHandler.handleErrorMessage(errorMessage);
});
} catch (Throwable cause) {
exceptionHandler.handleException(log, cause, responseObserver);
}
}
@Override

23
daemon/src/main/java/bisq/daemon/grpc/GrpcWalletsService.java
View File

@ -17,6 +17,7 @@
package bisq.daemon.grpc;
import bisq.common.UserThread;
import bisq.core.api.CoreApi;
import bisq.core.api.model.AddressBalanceInfo;
import bisq.core.api.model.TxFeeRateInfo;
@ -102,16 +103,18 @@ class GrpcWalletsService extends WalletsImplBase {
@Override
public void getBalances(GetBalancesRequest req, StreamObserver<GetBalancesReply> responseObserver) {
try {
var balances = coreApi.getBalances(req.getCurrencyCode());
var reply = GetBalancesReply.newBuilder()
.setBalances(balances.toProtoMessage())
.build();
responseObserver.onNext(reply);
responseObserver.onCompleted();
} catch (Throwable cause) {
exceptionHandler.handleException(log, cause, responseObserver);
}
UserThread.execute(() -> { // TODO (woodser): Balances.updateBalances() runs on UserThread for JFX components, so call from user thread, else the properties may not be updated. remove JFX properties or push delay into CoreWalletsService.getXmrBalances()?
try {
var balances = coreApi.getBalances(req.getCurrencyCode());
var reply = GetBalancesReply.newBuilder()
.setBalances(balances.toProtoMessage())
.build();
responseObserver.onNext(reply);
responseObserver.onCompleted();
} catch (Throwable cause) {
exceptionHandler.handleException(log, cause, responseObserver);
}
});
}
@Override

56
daemon/src/main/java/bisq/daemon/grpc/interceptor/GrpcCallRateMeter.java
View File

@ -40,31 +40,37 @@ public class GrpcCallRateMeter {
}
public boolean checkAndIncrement() {
if (getCallsCount() < allowedCallsPerTimeWindow) {
incrementCallsCount();
return true;
} else {
return false;
synchronized (callTimestamps) {
if (getCallsCount() < allowedCallsPerTimeWindow) {
incrementCallsCount();
return true;
} else {
return false;
}
}
}
public int getCallsCount() {
removeStaleCallTimestamps();
return callTimestamps.size();
synchronized (callTimestamps) {
removeStaleCallTimestamps();
return callTimestamps.size();
}
}
public String getCallsCountProgress(String calledMethodName) {
String shortTimeUnitName = StringUtils.chop(timeUnit.name().toLowerCase());
// Just print 'GetVersion has been called N times...',
// not 'io.bisq.protobuffer.GetVersion/GetVersion has been called N times...'
String loggedMethodName = calledMethodName.split("/")[1];
return format("%s has been called %d time%s in the last %s, rate limit is %d/%s",
loggedMethodName,
callTimestamps.size(),
callTimestamps.size() == 1 ? "" : "s",
shortTimeUnitName,
allowedCallsPerTimeWindow,
shortTimeUnitName);
synchronized (callTimestamps) {
String shortTimeUnitName = StringUtils.chop(timeUnit.name().toLowerCase());
// Just print 'GetVersion has been called N times...',
// not 'io.bisq.protobuffer.GetVersion/GetVersion has been called N times...'
String loggedMethodName = calledMethodName.split("/")[1];
return format("%s has been called %d time%s in the last %s, rate limit is %d/%s",
loggedMethodName,
callTimestamps.size(),
callTimestamps.size() == 1 ? "" : "s",
shortTimeUnitName,
allowedCallsPerTimeWindow,
shortTimeUnitName);
}
}
private void incrementCallsCount() {
@ -85,11 +91,13 @@ public class GrpcCallRateMeter {
@Override
public String toString() {
return "GrpcCallRateMeter{" +
"allowedCallsPerTimeWindow=" + allowedCallsPerTimeWindow +
", timeUnit=" + timeUnit.name() +
", timeUnitIntervalInMilliseconds=" + timeUnitIntervalInMilliseconds +
", callsCount=" + callTimestamps.size() +
'}';
synchronized (callTimestamps) {
return "GrpcCallRateMeter{" +
"allowedCallsPerTimeWindow=" + allowedCallsPerTimeWindow +
", timeUnit=" + timeUnit.name() +
", timeUnitIntervalInMilliseconds=" + timeUnitIntervalInMilliseconds +
", callsCount=" + callTimestamps.size() +
'}';
}
}
}

6
desktop/src/main/java/bisq/desktop/main/MainView.java
View File

@ -736,8 +736,10 @@ public class MainView extends InitializableView<StackPane, MainViewModel> {
});
model.getUpdatedDataReceived().addListener((observable, oldValue, newValue) -> {
p2PNetworkIcon.setOpacity(1);
p2pNetworkProgressBar.setProgress(0);
UserThread.execute(() -> {
p2PNetworkIcon.setOpacity(1);
p2pNetworkProgressBar.setProgress(0);
});
});
p2pNetworkProgressBar = new JFXProgressBar(-1);

2
desktop/src/main/java/bisq/desktop/main/funds/locked/LockedView.java
View File

@ -240,7 +240,7 @@ public class LockedView extends ActivatableView<VBox, Void> {
private Optional<Tradable> getTradable(LockedListItem item) {
String offerId = item.getAddressEntry().getOfferId();
Optional<Trade> tradeOptional = tradeManager.getTradeById(offerId);
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(offerId);
if (tradeOptional.isPresent()) {
return Optional.of(tradeOptional.get());
} else if (openOfferManager.getOpenOfferById(offerId).isPresent()) {

2
desktop/src/main/java/bisq/desktop/main/funds/reserved/ReservedView.java
View File

@ -239,7 +239,7 @@ public class ReservedView extends ActivatableView<VBox, Void> {
private Optional<Tradable> getTradable(ReservedListItem item) {
String offerId = item.getAddressEntry().getOfferId();
Optional<Trade> tradeOptional = tradeManager.getTradeById(offerId);
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(offerId);
if (tradeOptional.isPresent()) {
return Optional.of(tradeOptional.get());
} else if (openOfferManager.getOpenOfferById(offerId).isPresent()) {

8
desktop/src/main/java/bisq/desktop/main/funds/transactions/TransactionAwareTrade.java
View File

@ -32,9 +32,7 @@ import javafx.collections.ObservableList;
import java.util.Optional;
import lombok.extern.slf4j.Slf4j;
import monero.daemon.model.MoneroTx;
import monero.wallet.model.MoneroTxWallet;
@ -82,14 +80,14 @@ class TransactionAwareTrade implements TransactionAwareTradable {
private boolean isMakerDepositTx(String txId) {
return Optional.ofNullable(trade.getMakerDepositTx())
.map(MoneroTxWallet::getHash)
.map(MoneroTx::getHash)
.map(hash -> hash.equals(txId))
.orElse(false);
}
private boolean isTakerDepositTx(String txId) {
return Optional.ofNullable(trade.getTakerDepositTx())
.map(MoneroTxWallet::getHash)
.map(MoneroTx::getHash)
.map(hash -> hash.equals(txId))
.orElse(false);
}

18
desktop/src/main/java/bisq/desktop/main/market/offerbook/OfferBookChartView.java
View File

@ -382,17 +382,19 @@ public class OfferBookChartView extends ActivatableViewAndModel<VBox, OfferBookC
}
private void updateChartData() {
seriesBuy.getData().clear();
seriesSell.getData().clear();
areaChart.getData().clear();
UserThread.execute(() -> {
seriesBuy.getData().clear();
seriesSell.getData().clear();
areaChart.getData().clear();
boolean isCrypto = CurrencyUtil.isCryptoCurrency(model.getCurrencyCode());
boolean isCrypto = CurrencyUtil.isCryptoCurrency(model.getCurrencyCode());
// crypto: left-sell, right-buy. fiat: left-buy, right-sell
seriesBuy.getData().addAll(filterOutliersBuy(model.getBuyData(), isCrypto));
seriesSell.getData().addAll(filterOutliersSell(model.getSellData(), isCrypto));
// crypto: left-sell, right-buy. fiat: left-buy, right-sell
seriesBuy.getData().addAll(filterOutliersBuy(model.getBuyData(), isCrypto));
seriesSell.getData().addAll(filterOutliersSell(model.getSellData(), isCrypto));
areaChart.getData().addAll(List.of(seriesBuy, seriesSell));
areaChart.getData().addAll(List.of(seriesBuy, seriesSell));
});
}
List<XYChart.Data<Number, Number>> filterOutliersBuy(List<XYChart.Data<Number, Number>> buy, boolean isCrypto) {

4
desktop/src/main/java/bisq/desktop/main/offer/offerbook/OfferBookView.java
View File

@ -62,7 +62,7 @@ import bisq.core.util.FormattingUtils;
import bisq.core.util.coin.CoinFormatter;
import bisq.network.p2p.NodeAddress;
import bisq.common.UserThread;
import bisq.common.app.DevEnv;
import bisq.common.config.Config;
import bisq.common.util.Tuple3;
@ -305,7 +305,7 @@ public class OfferBookView extends ActivatableViewAndModel<GridPane, OfferBookVi
GridPane.setMargin(nrOfOffersLabel, new Insets(10, 0, 0, 0));
root.getChildren().add(nrOfOffersLabel);
offerListListener = c -> nrOfOffersLabel.setText(Res.get("offerbook.nrOffers", model.getOfferList().size()));
offerListListener = c -> UserThread.execute(() -> nrOfOffersLabel.setText(Res.get("offerbook.nrOffers", model.getOfferList().size())));
// Fixes incorrect ordering of Available offers:
// https://github.com/bisq-network/bisq-desktop/issues/588

32
desktop/src/main/java/bisq/desktop/main/offer/takeoffer/TakeOfferViewModel.java
View File

@ -51,7 +51,7 @@ import bisq.network.p2p.P2PService;
import bisq.network.p2p.network.CloseConnectionReason;
import bisq.network.p2p.network.Connection;
import bisq.network.p2p.network.ConnectionListener;
import bisq.common.UserThread;
import bisq.common.app.DevEnv;
import org.bitcoinj.core.Coin;
@ -524,23 +524,25 @@ class TakeOfferViewModel extends ActivatableWithDataModel<TakeOfferDataModel> im
}
private void updateSpinnerInfo() {
if (!showPayFundsScreenDisplayed.get() ||
offerWarning.get() != null ||
errorMessage.get() != null ||
showTransactionPublishedScreen.get()) {
spinnerInfoText.set("");
} else if (dataModel.getIsBtcWalletFunded().get()) {
spinnerInfoText.set("");
/* if (dataModel.isFeeFromFundingTxSufficient.get()) {
UserThread.execute(() -> {
if (!showPayFundsScreenDisplayed.get() ||
offerWarning.get() != null ||
errorMessage.get() != null ||
showTransactionPublishedScreen.get()) {
spinnerInfoText.set("");
} else if (dataModel.getIsBtcWalletFunded().get()) {
spinnerInfoText.set("");
/* if (dataModel.isFeeFromFundingTxSufficient.get()) {
spinnerInfoText.set("");
} else {
spinnerInfoText.set("Check if funding tx miner fee is sufficient...");
}*/
} else {
spinnerInfoText.set("Check if funding tx miner fee is sufficient...");
}*/
} else {
spinnerInfoText.set(Res.get("shared.waitingForFunds"));
}
spinnerInfoText.set(Res.get("shared.waitingForFunds"));
}
isWaitingForFunds.set(!spinnerInfoText.get().isEmpty());
isWaitingForFunds.set(!spinnerInfoText.get().isEmpty());
});
}
private void addListeners() {

78
desktop/src/main/java/bisq/desktop/main/overlays/Overlay.java
View File

@ -515,47 +515,49 @@ public abstract class Overlay<T extends Overlay<T>> {
if (owner != null) {
Scene rootScene = owner.getScene();
if (rootScene != null) {
Scene scene = new Scene(getRootContainer());
scene.getStylesheets().setAll(rootScene.getStylesheets());
scene.setFill(Color.TRANSPARENT);
UserThread.execute(() -> {
Scene scene = new Scene(getRootContainer());
scene.getStylesheets().setAll(rootScene.getStylesheets());
scene.setFill(Color.TRANSPARENT);
setupKeyHandler(scene);
setupKeyHandler(scene);
stage = new Stage();
stage.setScene(scene);
Window window = rootScene.getWindow();
setModality();
stage.initStyle(StageStyle.TRANSPARENT);
stage.setOnCloseRequest(event -> {
event.consume();
doClose();
stage = new Stage();
stage.setScene(scene);
Window window = rootScene.getWindow();
setModality();
stage.initStyle(StageStyle.TRANSPARENT);
stage.setOnCloseRequest(event -> {
event.consume();
doClose();
});
stage.sizeToScene();
stage.show();
layout();
addEffectToBackground();
// On Linux the owner stage does not move the child stage as it does on Mac
// So we need to apply centerPopup. Further with fast movements the handler loses
// the latest position, with a delay it fixes that.
// Also on Mac sometimes the popups are positioned outside of the main app, so keep it for all OS
positionListener = (observable, oldValue, newValue) -> {
if (stage != null) {
layout();
if (centerTime != null)
centerTime.stop();
centerTime = UserThread.runAfter(this::layout, 3);
}
};
window.xProperty().addListener(positionListener);
window.yProperty().addListener(positionListener);
window.widthProperty().addListener(positionListener);
animateDisplay();
isDisplayed = true;
});
stage.sizeToScene();
stage.show();
layout();
addEffectToBackground();
// On Linux the owner stage does not move the child stage as it does on Mac
// So we need to apply centerPopup. Further with fast movements the handler loses
// the latest position, with a delay it fixes that.
// Also on Mac sometimes the popups are positioned outside of the main app, so keep it for all OS
positionListener = (observable, oldValue, newValue) -> {
if (stage != null) {
layout();
if (centerTime != null)
centerTime.stop();
centerTime = UserThread.runAfter(this::layout, 3);
}
};
window.xProperty().addListener(positionListener);
window.yProperty().addListener(positionListener);
window.widthProperty().addListener(positionListener);
animateDisplay();
isDisplayed = true;
}
}
}

4
desktop/src/main/java/bisq/desktop/main/overlays/notifications/Notification.java
View File

@ -64,7 +64,9 @@ public class Notification extends Overlay<Notification> {
if (autoClose && autoCloseTimer == null)
autoCloseTimer = UserThread.runAfter(this::doClose, 6);
stage.addEventHandler(MouseEvent.MOUSE_PRESSED, (event) -> doClose());
UserThread.execute(() -> {
stage.addEventHandler(MouseEvent.MOUSE_PRESSED, (event) -> doClose());
});
}
@Override

90
desktop/src/main/java/bisq/desktop/main/portfolio/pendingtrades/PendingTradesDataModel.java
View File

@ -54,7 +54,7 @@ import bisq.core.trade.protocol.SellerProtocol;
import bisq.core.user.Preferences;
import bisq.network.p2p.P2PService;
import bisq.common.UserThread;
import bisq.common.crypto.PubKeyRing;
import bisq.common.crypto.PubKeyRingProvider;
import bisq.common.handlers.ErrorMessageHandler;
@ -87,8 +87,7 @@ import javax.annotation.Nullable;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import monero.daemon.model.MoneroTx;
import monero.wallet.MoneroWallet;
import monero.wallet.model.MoneroTxWallet;
@ -360,54 +359,56 @@ public class PendingTradesDataModel extends ActivatableDataModel {
}
private void doSelectItem(@Nullable PendingTradesListItem item) {
if (selectedTrade != null)
selectedTrade.stateProperty().removeListener(tradeStateChangeListener);
UserThread.execute(() -> {
if (selectedTrade != null)
selectedTrade.stateProperty().removeListener(tradeStateChangeListener);
if (item != null) {
selectedTrade = item.getTrade();
if (selectedTrade == null) {
log.error("selectedTrade is null");
return;
}
MoneroTxWallet makerDepositTx = selectedTrade.getMakerDepositTx();
MoneroTxWallet takerDepositTx = selectedTrade.getTakerDepositTx();
String tradeId = selectedTrade.getId();
tradeStateChangeListener = (observable, oldValue, newValue) -> {
if (makerDepositTx != null && takerDepositTx != null) { // TODO (woodser): this treats separate deposit ids as one unit, being both available or unavailable
makerTxId.set(makerDepositTx.getHash());
takerTxId.set(takerDepositTx.getHash());
notificationCenter.setSelectedTradeId(tradeId);
selectedTrade.stateProperty().removeListener(tradeStateChangeListener);
} else {
makerTxId.set("");
takerTxId.set("");
if (item != null) {
selectedTrade = item.getTrade();
if (selectedTrade == null) {
log.error("selectedTrade is null");
return;
}
};
selectedTrade.stateProperty().addListener(tradeStateChangeListener);
Offer offer = selectedTrade.getOffer();
if (offer == null) {
log.error("offer is null");
return;
}
MoneroTx makerDepositTx = selectedTrade.getMakerDepositTx();
MoneroTx takerDepositTx = selectedTrade.getTakerDepositTx();
String tradeId = selectedTrade.getId();
tradeStateChangeListener = (observable, oldValue, newValue) -> {
if (makerDepositTx != null && takerDepositTx != null) { // TODO (woodser): this treats separate deposit ids as one unit, being both available or unavailable
makerTxId.set(makerDepositTx.getHash());
takerTxId.set(takerDepositTx.getHash());
notificationCenter.setSelectedTradeId(tradeId);
selectedTrade.stateProperty().removeListener(tradeStateChangeListener);
} else {
makerTxId.set("");
takerTxId.set("");
}
};
selectedTrade.stateProperty().addListener(tradeStateChangeListener);
isMaker = tradeManager.isMyOffer(offer);
if (makerDepositTx != null && takerDepositTx != null) {
makerTxId.set(makerDepositTx.getHash());
takerTxId.set(takerDepositTx.getHash());
Offer offer = selectedTrade.getOffer();
if (offer == null) {
log.error("offer is null");
return;
}
isMaker = tradeManager.isMyOffer(offer);
if (makerDepositTx != null && takerDepositTx != null) {
makerTxId.set(makerDepositTx.getHash());
takerTxId.set(takerDepositTx.getHash());
} else {
makerTxId.set("");
takerTxId.set("");
}
notificationCenter.setSelectedTradeId(tradeId);
} else {
selectedTrade = null;
makerTxId.set("");
takerTxId.set("");
notificationCenter.setSelectedTradeId(null);
}
notificationCenter.setSelectedTradeId(tradeId);
} else {
selectedTrade = null;
makerTxId.set("");
takerTxId.set("");
notificationCenter.setSelectedTradeId(null);
}
selectedItemProperty.set(item);
selectedItemProperty.set(item);
});
}
private void tryOpenDispute(boolean isSupportTicket) {
@ -458,8 +459,9 @@ public class PendingTradesDataModel extends ActivatableDataModel {
byte[] payoutTxSerialized = null;
String payoutTxHashAsString = null;
MoneroTxWallet payoutTx = trade.getPayoutTx();
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
String updatedMultisigHex = multisigWallet.getMultisigHex();
xmrWalletService.closeMultisigWallet(trade.getId()); // close multisig wallet
if (payoutTx != null) {
// payoutTxSerialized = payoutTx.bitcoinSerialize(); // TODO (woodser): no need to pass serialized txs for xmr
// payoutTxHashAsString = payoutTx.getHashAsString();

2
desktop/src/main/java/bisq/desktop/main/portfolio/pendingtrades/PendingTradesView.java
View File

@ -363,7 +363,7 @@ public class PendingTradesView extends ActivatableViewAndModel<VBox, PendingTrad
}
private void updateMoveTradeToFailedColumnState() {
moveTradeToFailedColumn.setVisible(model.dataModel.list.stream().anyMatch(item -> isMaybeInvalidTrade(item.getTrade())));
UserThread.execute(() -> moveTradeToFailedColumn.setVisible(model.dataModel.list.stream().anyMatch(item -> isMaybeInvalidTrade(item.getTrade()))));
}
private boolean isMaybeInvalidTrade(Trade trade) {

6
desktop/src/main/java/bisq/desktop/main/portfolio/pendingtrades/steps/buyer/BuyerStep2View.java
View File

@ -137,7 +137,8 @@ public class BuyerStep2View extends TradeStepView {
showPopup();
} else if (state.ordinal() <= Trade.State.BUYER_SEND_FAILED_FIAT_PAYMENT_INITIATED_MSG.ordinal()) {
if (!trade.hasFailed()) {
switch (state) {
UserThread.execute(() -> {
switch (state) {
case BUYER_CONFIRMED_IN_UI_FIAT_PAYMENT_INITIATED:
case BUYER_SENT_FIAT_PAYMENT_INITIATED_MSG:
busyAnimation.play();
@ -169,7 +170,8 @@ public class BuyerStep2View extends TradeStepView {
busyAnimation.stop();
statusLabel.setText(Res.get("shared.sendingConfirmationAgain"));
break;
}
}
});
} else {
log.warn("Trade contains error message {}", trade.getErrorMessage());
statusLabel.setText("");

74
desktop/src/main/java/bisq/desktop/main/shared/ChatView.java
View File

@ -471,43 +471,45 @@ public class ChatView extends AnchorPane {
}
private void updateMsgState(ChatMessage message) {
boolean visible;
AwesomeIcon icon = null;
String text = null;
statusIcon.getStyleClass().add("status-icon");
statusInfoLabel.getStyleClass().add("status-icon");
statusHBox.setOpacity(1);
log.debug("updateMsgState msg-{}, ack={}, arrived={}", message.getMessage(),
message.acknowledgedProperty().get(), message.arrivedProperty().get());
if (message.acknowledgedProperty().get()) {
visible = true;
icon = AwesomeIcon.OK_SIGN;
text = Res.get("support.acknowledged");
} else if (message.ackErrorProperty().get() != null) {
visible = true;
icon = AwesomeIcon.EXCLAMATION_SIGN;
text = Res.get("support.error", message.ackErrorProperty().get());
statusIcon.getStyleClass().add("error-text");
statusInfoLabel.getStyleClass().add("error-text");
} else if (message.arrivedProperty().get()) {
visible = true;
icon = AwesomeIcon.OK;
text = Res.get("support.arrived");
} else if (message.storedInMailboxProperty().get()) {
visible = true;
icon = AwesomeIcon.ENVELOPE;
text = Res.get("support.savedInMailbox");
} else {
visible = false;
log.debug("updateMsgState called but no msg state available. message={}", message);
}
UserThread.execute(() -> {
boolean visible;
AwesomeIcon icon = null;
String text = null;
statusIcon.getStyleClass().add("status-icon");
statusInfoLabel.getStyleClass().add("status-icon");
statusHBox.setOpacity(1);
log.debug("updateMsgState msg-{}, ack={}, arrived={}", message.getMessage(),
message.acknowledgedProperty().get(), message.arrivedProperty().get());
if (message.acknowledgedProperty().get()) {
visible = true;
icon = AwesomeIcon.OK_SIGN;
text = Res.get("support.acknowledged");
} else if (message.ackErrorProperty().get() != null) {
visible = true;
icon = AwesomeIcon.EXCLAMATION_SIGN;
text = Res.get("support.error", message.ackErrorProperty().get());
statusIcon.getStyleClass().add("error-text");
statusInfoLabel.getStyleClass().add("error-text");
} else if (message.arrivedProperty().get()) {
visible = true;
icon = AwesomeIcon.OK;
text = Res.get("support.arrived");
} else if (message.storedInMailboxProperty().get()) {
visible = true;
icon = AwesomeIcon.ENVELOPE;
text = Res.get("support.savedInMailbox");
} else {
visible = false;
log.debug("updateMsgState called but no msg state available. message={}", message);
}
statusHBox.setVisible(visible);
if (visible) {
AwesomeDude.setIcon(statusIcon, icon, "14");
statusIcon.setTooltip(new Tooltip(text));
statusInfoLabel.setText(text);
}
statusHBox.setVisible(visible);
if (visible) {
AwesomeDude.setIcon(statusIcon, icon, "14");
statusIcon.setTooltip(new Tooltip(text));
statusInfoLabel.setText(text);
}
});
}
};
}

134
desktop/src/main/java/bisq/desktop/main/support/dispute/DisputeChatPopup.java
View File

@ -85,76 +85,78 @@ public class DisputeChatPopup {
}
public void openChat(Dispute selectedDispute, DisputeSession concreteDisputeSession, String counterpartyName) {
closeChat();
this.selectedDispute = selectedDispute;
selectedDispute.getChatMessages().forEach(m -> m.setWasDisplayed(true));
disputeManager.requestPersistence();
ChatView chatView = new ChatView(disputeManager, formatter, counterpartyName);
chatView.setAllowAttachments(true);
chatView.setDisplayHeader(false);
chatView.initialize();
AnchorPane pane = new AnchorPane(chatView);
pane.setPrefSize(760, 500);
AnchorPane.setLeftAnchor(chatView, 10d);
AnchorPane.setRightAnchor(chatView, 10d);
AnchorPane.setTopAnchor(chatView, -20d);
AnchorPane.setBottomAnchor(chatView, 10d);
pane.getStyleClass().add("dispute-chat-border");
Button closeDisputeButton = null;
if (!selectedDispute.isClosed() && !disputeManager.isTrader(selectedDispute)) {
closeDisputeButton = new AutoTooltipButton(Res.get("support.closeTicket"));
closeDisputeButton.setOnAction(e -> chatCallback.onCloseDisputeFromChatWindow(selectedDispute));
}
chatView.display(concreteDisputeSession, closeDisputeButton, pane.widthProperty());
chatView.activate();
chatView.scrollToBottom();
chatPopupStage = new Stage();
chatPopupStage.setTitle(Res.get("disputeChat.chatWindowTitle", selectedDispute.getShortTradeId())
+ " " + selectedDispute.getRoleString());
StackPane owner = MainView.getRootContainer();
Scene rootScene = owner.getScene();
chatPopupStage.initOwner(rootScene.getWindow());
chatPopupStage.initModality(Modality.NONE);
chatPopupStage.initStyle(StageStyle.DECORATED);
chatPopupStage.setOnHiding(event -> {
chatView.deactivate();
// at close we set all as displayed. While open we ignore updates of the numNewMsg in the list icon.
UserThread.execute(() -> {
closeChat();
this.selectedDispute = selectedDispute;
selectedDispute.getChatMessages().forEach(m -> m.setWasDisplayed(true));
disputeManager.requestPersistence();
chatPopupStage = null;
});
Scene scene = new Scene(pane);
CssTheme.loadSceneStyles(scene, preferences.getCssTheme(), false);
scene.addEventHandler(KeyEvent.KEY_RELEASED, ev -> {
if (ev.getCode() == KeyCode.ESCAPE) {
ev.consume();
chatPopupStage.hide();
ChatView chatView = new ChatView(disputeManager, formatter, counterpartyName);
chatView.setAllowAttachments(true);
chatView.setDisplayHeader(false);
chatView.initialize();
AnchorPane pane = new AnchorPane(chatView);
pane.setPrefSize(760, 500);
AnchorPane.setLeftAnchor(chatView, 10d);
AnchorPane.setRightAnchor(chatView, 10d);
AnchorPane.setTopAnchor(chatView, -20d);
AnchorPane.setBottomAnchor(chatView, 10d);
pane.getStyleClass().add("dispute-chat-border");
Button closeDisputeButton = null;
if (!selectedDispute.isClosed() && !disputeManager.isTrader(selectedDispute)) {
closeDisputeButton = new AutoTooltipButton(Res.get("support.closeTicket"));
closeDisputeButton.setOnAction(e -> chatCallback.onCloseDisputeFromChatWindow(selectedDispute));
}
chatView.display(concreteDisputeSession, closeDisputeButton, pane.widthProperty());
chatView.activate();
chatView.scrollToBottom();
chatPopupStage = new Stage();
chatPopupStage.setTitle(Res.get("disputeChat.chatWindowTitle", selectedDispute.getShortTradeId())
+ " " + selectedDispute.getRoleString());
StackPane owner = MainView.getRootContainer();
Scene rootScene = owner.getScene();
chatPopupStage.initOwner(rootScene.getWindow());
chatPopupStage.initModality(Modality.NONE);
chatPopupStage.initStyle(StageStyle.DECORATED);
chatPopupStage.setOnHiding(event -> {
chatView.deactivate();
// at close we set all as displayed. While open we ignore updates of the numNewMsg in the list icon.
selectedDispute.getChatMessages().forEach(m -> m.setWasDisplayed(true));
disputeManager.requestPersistence();
chatPopupStage = null;
});
Scene scene = new Scene(pane);
CssTheme.loadSceneStyles(scene, preferences.getCssTheme(), false);
scene.addEventHandler(KeyEvent.KEY_RELEASED, ev -> {
if (ev.getCode() == KeyCode.ESCAPE) {
ev.consume();
chatPopupStage.hide();
}
});
chatPopupStage.setScene(scene);
chatPopupStage.setOpacity(0);
chatPopupStage.show();
xPositionListener = (observable, oldValue, newValue) -> chatPopupStageXPosition = (double) newValue;
chatPopupStage.xProperty().addListener(xPositionListener);
yPositionListener = (observable, oldValue, newValue) -> chatPopupStageYPosition = (double) newValue;
chatPopupStage.yProperty().addListener(yPositionListener);
if (chatPopupStageXPosition == -1) {
Window rootSceneWindow = rootScene.getWindow();
double titleBarHeight = rootSceneWindow.getHeight() - rootScene.getHeight();
chatPopupStage.setX(Math.round(rootSceneWindow.getX() + (owner.getWidth() - chatPopupStage.getWidth() / 4 * 3)));
chatPopupStage.setY(Math.round(rootSceneWindow.getY() + titleBarHeight + (owner.getHeight() - chatPopupStage.getHeight() / 4 * 3)));
} else {
chatPopupStage.setX(chatPopupStageXPosition);
chatPopupStage.setY(chatPopupStageYPosition);
}
// Delay display to next render frame to avoid that the popup is first quickly displayed in default position
// and after a short moment in the correct position
UserThread.execute(() -> chatPopupStage.setOpacity(1));
});
chatPopupStage.setScene(scene);
chatPopupStage.setOpacity(0);
chatPopupStage.show();
xPositionListener = (observable, oldValue, newValue) -> chatPopupStageXPosition = (double) newValue;
chatPopupStage.xProperty().addListener(xPositionListener);
yPositionListener = (observable, oldValue, newValue) -> chatPopupStageYPosition = (double) newValue;
chatPopupStage.yProperty().addListener(yPositionListener);
if (chatPopupStageXPosition == -1) {
Window rootSceneWindow = rootScene.getWindow();
double titleBarHeight = rootSceneWindow.getHeight() - rootScene.getHeight();
chatPopupStage.setX(Math.round(rootSceneWindow.getX() + (owner.getWidth() - chatPopupStage.getWidth() / 4 * 3)));
chatPopupStage.setY(Math.round(rootSceneWindow.getY() + titleBarHeight + (owner.getHeight() - chatPopupStage.getHeight() / 4 * 3)));
} else {
chatPopupStage.setX(chatPopupStageXPosition);
chatPopupStage.setY(chatPopupStageYPosition);
}
// Delay display to next render frame to avoid that the popup is first quickly displayed in default position
// and after a short moment in the correct position
UserThread.execute(() -> chatPopupStage.setOpacity(1));
}
}

90
desktop/src/main/java/bisq/desktop/main/support/dispute/DisputeView.java
View File

@ -1131,7 +1131,7 @@ public abstract class DisputeView extends ActivatableView<VBox, Void> {
super.updateItem(item, empty);
if (item != null && !empty) {
Optional<Trade> tradeOptional = tradeManager.getTradeById(item.getTradeId());
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(item.getTradeId());
if (tradeOptional.isPresent()) {
field = new HyperlinkWithIcon(item.getShortTradeId());
field.setMouseTransparent(false);
@ -1349,31 +1349,33 @@ public abstract class DisputeView extends ActivatableView<VBox, Void> {
@Override
public void updateItem(final Dispute item, boolean empty) {
super.updateItem(item, empty);
if (item != null && !empty) {
if (closedProperty != null) {
closedProperty.removeListener(listener);
}
UserThread.execute(() -> {
if (item != null && !empty) {
if (closedProperty != null) {
closedProperty.removeListener(listener);
}
listener = (observable, oldValue, newValue) -> {
setText(newValue ? Res.get("support.closed") : Res.get("support.open"));
listener = (observable, oldValue, newValue) -> {
setText(newValue ? Res.get("support.closed") : Res.get("support.open"));
if (getTableRow() != null)
getTableRow().setOpacity(newValue && item.getBadgeCountProperty().get() == 0 ? 0.4 : 1);
if (item.isClosed() && item == chatPopup.getSelectedDispute())
chatPopup.closeChat(); // close the chat popup when the associated ticket is closed
};
closedProperty = item.isClosedProperty();
closedProperty.addListener(listener);
boolean isClosed = item.isClosed();
setText(isClosed ? Res.get("support.closed") : Res.get("support.open"));
if (getTableRow() != null)
getTableRow().setOpacity(newValue && item.getBadgeCountProperty().get() == 0 ? 0.4 : 1);
if (item.isClosed() && item == chatPopup.getSelectedDispute())
chatPopup.closeChat(); // close the chat popup when the associated ticket is closed
};
closedProperty = item.isClosedProperty();
closedProperty.addListener(listener);
boolean isClosed = item.isClosed();
setText(isClosed ? Res.get("support.closed") : Res.get("support.open"));
if (getTableRow() != null)
getTableRow().setOpacity(isClosed && item.getBadgeCountProperty().get() == 0 ? 0.4 : 1);
} else {
if (closedProperty != null) {
closedProperty.removeListener(listener);
closedProperty = null;
getTableRow().setOpacity(isClosed && item.getBadgeCountProperty().get() == 0 ? 0.4 : 1);
} else {
if (closedProperty != null) {
closedProperty.removeListener(listener);
closedProperty = null;
}
setText("");
}
setText("");
}
});
}
};
}
@ -1389,27 +1391,29 @@ public abstract class DisputeView extends ActivatableView<VBox, Void> {
}
private void updateChatMessageCount(Dispute dispute, JFXBadge chatBadge) {
if (chatBadge == null)
return;
// when the chat popup is active, we do not display new message count indicator for that item
if (chatPopup.isChatShown() && selectedDispute != null && dispute.getId().equals(selectedDispute.getId())) {
chatBadge.setText("");
chatBadge.setEnabled(false);
chatBadge.refreshBadge();
// have to UserThread.execute or the new message will be sent to peer as "read"
UserThread.execute(() -> dispute.setChatMessagesSeen(senderFlag()));
return;
}
UserThread.execute(() -> {
if (chatBadge == null)
return;
// when the chat popup is active, we do not display new message count indicator for that item
if (chatPopup.isChatShown() && selectedDispute != null && dispute.getId().equals(selectedDispute.getId())) {
chatBadge.setText("");
chatBadge.setEnabled(false);
chatBadge.refreshBadge();
// have to UserThread.execute or the new message will be sent to peer as "read"
UserThread.execute(() -> dispute.setChatMessagesSeen(senderFlag()));
return;
}
if (dispute.unreadMessageCount(senderFlag()) > 0) {
chatBadge.setText(String.valueOf(dispute.unreadMessageCount(senderFlag())));
chatBadge.setEnabled(true);
} else {
chatBadge.setText("");
chatBadge.setEnabled(false);
}
chatBadge.refreshBadge();
dispute.refreshAlertLevel(senderFlag());
if (dispute.unreadMessageCount(senderFlag()) > 0) {
chatBadge.setText(String.valueOf(dispute.unreadMessageCount(senderFlag())));
chatBadge.setEnabled(true);
} else {
chatBadge.setText("");
chatBadge.setEnabled(false);
}
chatBadge.refreshBadge();
dispute.refreshAlertLevel(senderFlag());
});
}
private String getCounterpartyName() {

4
desktop/src/main/java/bisq/desktop/util/Transitions.java
View File

@ -92,12 +92,12 @@ public class Transitions {
public void fadeOutAndRemove(Node node, int duration, EventHandler<ActionEvent> handler) {
FadeTransition fade = fadeOut(node, getDuration(duration));
fade.setInterpolator(Interpolator.EASE_IN);
fade.setOnFinished(actionEvent -> {
fade.setOnFinished(actionEvent -> UserThread.execute(() -> {
((Pane) (node.getParent())).getChildren().remove(node);
//Profiler.printMsgWithTime("fadeOutAndRemove");
if (handler != null)
handler.handle(actionEvent);
});
}));
}
// Blur

29
p2p/src/main/java/bisq/network/p2p/network/Connection.java
View File

@ -112,6 +112,7 @@ public class Connection implements HasCapabilities, Runnable, MessageListener {
private static final int MAX_PERMITTED_MESSAGE_SIZE = 10 * 1024 * 1024; // 10 MB (425 offers resulted in about 660 kb, mailbox msg will add more to it) offer has usually 2 kb, mailbox 3kb.
//TODO decrease limits again after testing
private static final int SOCKET_TIMEOUT = (int) TimeUnit.SECONDS.toMillis(180);
private static final int MAX_CONNECTION_THREADS = 10;
public static int getPermittedMessageSize() {
return PERMITTED_MESSAGE_SIZE;
@ -130,6 +131,8 @@ public class Connection implements HasCapabilities, Runnable, MessageListener {
@Getter
private final String uid;
private final ExecutorService singleThreadExecutor = Executors.newSingleThreadExecutor(runnable -> new Thread(runnable, "Connection.java executor-service"));
private final ExecutorService connectionThreadPool = Executors.newFixedThreadPool(MAX_CONNECTION_THREADS);
// holder of state shared between InputHandler and Connection
@Getter
private final Statistic statistic;
@ -429,12 +432,18 @@ public class Connection implements HasCapabilities, Runnable, MessageListener {
// Only receive non - CloseConnectionMessage network_messages
@Override
public void onMessage(NetworkEnvelope networkEnvelope, Connection connection) {
checkArgument(connection.equals(this));
if (networkEnvelope instanceof BundleOfEnvelopes) {
onBundleOfEnvelopes((BundleOfEnvelopes) networkEnvelope, connection);
} else {
UserThread.execute(() -> messageListeners.forEach(e -> e.onMessage(networkEnvelope, connection)));
}
Connection that = this;
connectionThreadPool.submit(new Runnable() {
@Override
public void run() {
checkArgument(connection.equals(that));
if (networkEnvelope instanceof BundleOfEnvelopes) {
onBundleOfEnvelopes((BundleOfEnvelopes) networkEnvelope, connection);
} else {
messageListeners.forEach(e -> e.onMessage(networkEnvelope, connection));
}
}
});
}
private void onBundleOfEnvelopes(BundleOfEnvelopes bundleOfEnvelopes, Connection connection) {
@ -466,8 +475,8 @@ public class Connection implements HasCapabilities, Runnable, MessageListener {
envelopesToProcess.add(networkEnvelope);
}
}
envelopesToProcess.forEach(envelope -> UserThread.execute(() ->
messageListeners.forEach(listener -> listener.onMessage(envelope, connection))));
envelopesToProcess.forEach(envelope ->
messageListeners.forEach(listener -> listener.onMessage(envelope, connection)));
}
@ -793,11 +802,11 @@ public class Connection implements HasCapabilities, Runnable, MessageListener {
return;
}
// Throttle inbound network_messages
// Throttle inbound network messages
long now = System.currentTimeMillis();
long elapsed = now - lastReadTimeStamp;
if (elapsed < 10) {
log.debug("We got 2 network_messages received in less than 10 ms. We set the thread to sleep " +
log.info("We got 2 network messages received in less than 10 ms. We set the thread to sleep " +
"for 20 ms to avoid getting flooded by our peer. lastReadTimeStamp={}, now={}, elapsed={}",
lastReadTimeStamp, now, elapsed);
Thread.sleep(20);

67
proto/src/main/proto/pb.proto
View File

@ -1497,36 +1497,38 @@ message Trade {
enum State {
PB_ERROR_STATE = 0;
PREPARATION = 1;
TAKER_PUBLISHED_TAKER_FEE_TX = 2;
MAKER_SENT_PUBLISH_DEPOSIT_TX_REQUEST = 3;
MAKER_SAW_ARRIVED_PUBLISH_DEPOSIT_TX_REQUEST = 4;
MAKER_STORED_IN_MAILBOX_PUBLISH_DEPOSIT_TX_REQUEST = 5;
MAKER_SEND_FAILED_PUBLISH_DEPOSIT_TX_REQUEST = 6;
TAKER_RECEIVED_PUBLISH_DEPOSIT_TX_REQUEST = 7;
TAKER_PUBLISHED_DEPOSIT_TX = 8;
TAKER_SAW_DEPOSIT_TX_IN_NETWORK = 9;
TAKER_SENT_DEPOSIT_TX_PUBLISHED_MSG = 10;
TAKER_SAW_ARRIVED_DEPOSIT_TX_PUBLISHED_MSG = 11;
TAKER_STORED_IN_MAILBOX_DEPOSIT_TX_PUBLISHED_MSG = 12;
TAKER_SEND_FAILED_DEPOSIT_TX_PUBLISHED_MSG = 13;
MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG = 14;
MAKER_SAW_DEPOSIT_TX_IN_NETWORK = 15;
DEPOSIT_CONFIRMED_IN_BLOCK_CHAIN = 16;
BUYER_CONFIRMED_IN_UI_FIAT_PAYMENT_INITIATED = 17;
BUYER_SENT_FIAT_PAYMENT_INITIATED_MSG = 18;
BUYER_SAW_ARRIVED_FIAT_PAYMENT_INITIATED_MSG = 19;
BUYER_STORED_IN_MAILBOX_FIAT_PAYMENT_INITIATED_MSG = 20;
BUYER_SEND_FAILED_FIAT_PAYMENT_INITIATED_MSG = 21;
SELLER_RECEIVED_FIAT_PAYMENT_INITIATED_MSG = 22;
SELLER_CONFIRMED_IN_UI_FIAT_PAYMENT_RECEIPT = 23;
SELLER_PUBLISHED_PAYOUT_TX = 24;
SELLER_SENT_PAYOUT_TX_PUBLISHED_MSG = 25;
SELLER_SAW_ARRIVED_PAYOUT_TX_PUBLISHED_MSG = 26;
SELLER_STORED_IN_MAILBOX_PAYOUT_TX_PUBLISHED_MSG = 27;
SELLER_SEND_FAILED_PAYOUT_TX_PUBLISHED_MSG = 28;
BUYER_RECEIVED_PAYOUT_TX_PUBLISHED_MSG = 29;
BUYER_SAW_PAYOUT_TX_IN_NETWORK = 30;
WITHDRAW_COMPLETED = 31;
CONTRACT_SIGNATURE_REQUESTED = 2;
CONTRACT_SIGNED = 3;
TAKER_PUBLISHED_TAKER_FEE_TX = 4;
MAKER_SENT_PUBLISH_DEPOSIT_TX_REQUEST = 5;
MAKER_SAW_ARRIVED_PUBLISH_DEPOSIT_TX_REQUEST = 6;
MAKER_STORED_IN_MAILBOX_PUBLISH_DEPOSIT_TX_REQUEST = 7;
MAKER_SEND_FAILED_PUBLISH_DEPOSIT_TX_REQUEST = 8;
TAKER_RECEIVED_PUBLISH_DEPOSIT_TX_REQUEST = 9;
TAKER_PUBLISHED_DEPOSIT_TX = 10;
TAKER_SAW_DEPOSIT_TX_IN_NETWORK = 11;
TAKER_SENT_DEPOSIT_TX_PUBLISHED_MSG = 12;
TAKER_SAW_ARRIVED_DEPOSIT_TX_PUBLISHED_MSG = 13;
TAKER_STORED_IN_MAILBOX_DEPOSIT_TX_PUBLISHED_MSG = 14;
TAKER_SEND_FAILED_DEPOSIT_TX_PUBLISHED_MSG = 15;
MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG = 16;
MAKER_SAW_DEPOSIT_TX_IN_NETWORK = 17;
DEPOSIT_CONFIRMED_IN_BLOCK_CHAIN = 18;
BUYER_CONFIRMED_IN_UI_FIAT_PAYMENT_INITIATED = 19;
BUYER_SENT_FIAT_PAYMENT_INITIATED_MSG = 20;
BUYER_SAW_ARRIVED_FIAT_PAYMENT_INITIATED_MSG = 21;
BUYER_STORED_IN_MAILBOX_FIAT_PAYMENT_INITIATED_MSG = 22;
BUYER_SEND_FAILED_FIAT_PAYMENT_INITIATED_MSG = 23;
SELLER_RECEIVED_FIAT_PAYMENT_INITIATED_MSG = 24;
SELLER_CONFIRMED_IN_UI_FIAT_PAYMENT_RECEIPT = 25;
SELLER_PUBLISHED_PAYOUT_TX = 26;
SELLER_SENT_PAYOUT_TX_PUBLISHED_MSG = 27;
SELLER_SAW_ARRIVED_PAYOUT_TX_PUBLISHED_MSG = 28;
SELLER_STORED_IN_MAILBOX_PAYOUT_TX_PUBLISHED_MSG = 29;
SELLER_SEND_FAILED_PAYOUT_TX_PUBLISHED_MSG = 30;
BUYER_RECEIVED_PAYOUT_TX_PUBLISHED_MSG = 31;
BUYER_SAW_PAYOUT_TX_IN_NETWORK = 32;
WITHDRAW_COMPLETED = 33;
}
enum Phase {
@ -1654,9 +1656,8 @@ message ProcessModel {
NodeAddress temp_trading_peer_node_address = 1006;
string prepared_multisig_hex = 1007;
string made_multisig_hex = 1008;
bool multisig_setup_complete = 1009;
bool maker_ready_to_fund_multisig = 1010;
bool multisig_deposit_initiated = 1011;
string multisig_address = 1009;
bool multisig_setup_complete = 1010; // TODO: remove this field
}
message TradingPeer {